<?xml version="1.0" encoding="UTF-8"?><!DOCTYPE article PUBLIC "-//NLM//DTD JATS (Z39.96) Journal Publishing DTD v1.2 20190208//EN" "http://jats.nlm.nih.gov/publishing/1.2/JATS-journalpublishing1.dtd"><article xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink" article-type="review-article" dtd-version="1.2" xml:lang="en">
    <front>
        <journal-meta>
            <journal-id journal-id-type="pmc">F1000Research</journal-id>
            <journal-title-group>
                <journal-title>F1000Research</journal-title>
            </journal-title-group>
            <issn pub-type="epub">2046-1402</issn>
            <publisher>
                <publisher-name>F1000 Research Limited</publisher-name>
                <publisher-loc>London, UK</publisher-loc>
            </publisher>
        </journal-meta>
        <article-meta>
            <article-id pub-id-type="doi">10.12688/f1000research.19805.1</article-id>
            <article-categories>
                <subj-group subj-group-type="heading">
                    <subject>Review</subject>
                </subj-group>
                <subj-group>
                    <subject>Articles</subject>
                </subj-group>
            </article-categories>
            <title-group>
                <article-title>Infection resisters: targets of new research for uncovering natural protective immunity against 
                    <italic>Mycobacterium tuberculosis</italic>
                </article-title>
                <fn-group content-type="pub-status">
                    <fn>
                        <p>[version 1; peer review: 3 approved]</p>
                    </fn>
                </fn-group>
            </title-group>
            <contrib-group>
                <contrib contrib-type="author" corresp="no">
                    <name>
                        <surname>Kaipilyawar</surname>
                        <given-names>Vaishnavi</given-names>
                    </name>
                    <role content-type="http://credit.niso.org/">Conceptualization</role>
                    <role content-type="http://credit.niso.org/">Writing &#x2013; Original Draft Preparation</role>
                    <uri content-type="orcid">https://orcid.org/0000-0002-8940-8509</uri>
                    <xref ref-type="aff" rid="a1">1</xref>
                </contrib>
                <contrib contrib-type="author" corresp="yes">
                    <name>
                        <surname>Salgame</surname>
                        <given-names>Padmini</given-names>
                    </name>
                    <role content-type="http://credit.niso.org/">Conceptualization</role>
                    <role content-type="http://credit.niso.org/">Writing &#x2013; Review &amp; Editing</role>
                    <uri content-type="orcid">https://orcid.org/0000-0003-2245-3767</uri>
                    <xref ref-type="corresp" rid="c1">a</xref>
                    <xref ref-type="aff" rid="a1">1</xref>
                </contrib>
                <aff id="a1">
                    <label>1</label>Center for Emerging Pathogens, Rutgers-New Jersey Medical School, International Center for Public Health, 225 Warren St, Newark, NJ, 07103, USA</aff>
            </contrib-group>
            <author-notes>
                <corresp id="c1">
                    <label>a</label>
                    <email xlink:href="mailto:salgampa@njms.rutgers.edu">salgampa@njms.rutgers.edu</email>
                </corresp>
                <fn fn-type="conflict">
                    <p>No competing interests were disclosed.</p>
                </fn>
            </author-notes>
            <pub-date pub-type="epub">
                <day>27</day>
                <month>9</month>
                <year>2019</year>
            </pub-date>
            <pub-date pub-type="collection">
                <year>2019</year>
            </pub-date>
            <volume>8</volume>
            <elocation-id>F1000 Faculty Rev-1698</elocation-id>
            <history>
                <date date-type="accepted">
                    <day>20</day>
                    <month>9</month>
                    <year>2019</year>
                </date>
            </history>
            <permissions>
                <copyright-statement>Copyright: &#x00a9; 2019 Kaipilyawar V and Salgame P</copyright-statement>
                <copyright-year>2019</copyright-year>
                <license xlink:href="https://creativecommons.org/licenses/by/4.0/">
                    <license-p>This is an open access article distributed under the terms of the Creative Commons Attribution Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.</license-p>
                </license>
            </permissions>
            <self-uri content-type="pdf" xlink:href="https://f1000research.com/articles/8-1698/pdf"/>
            <abstract>
                <p>&#x201c;Infection resisters&#x201d; are broadly defined as individuals who despite significant exposure to 
                    <italic toggle="yes">Mycobacterium tuberculosis</italic> remain persistently unreactive to conventional detection assays, suggesting that they remain uninfected or rapidly clear their infection early on following exposure. In this review, we highlight recent studies that point to underlying host immune mechanisms that could mediate this natural resistance. We also illustrate some additional avenues that are likely to be differently modulated in resisters and possess the potential to be targeted, ranging from early mycobacterial sensing leading up to subsequent killing. Emerging research in this area can be harnessed to provide valuable insights into the development of novel therapeutic and vaccine strategies against 
                    <italic toggle="yes">M. tuberculosis</italic>.</p>
            </abstract>
            <kwd-group kwd-group-type="author">
                <kwd>Innate immunity</kwd>
                <kwd>M. tuberculosis</kwd>
                <kwd>Infection resistors</kwd>
                <kwd>Natural immunity</kwd>
                <kwd>Tuberculosis</kwd>
                <kwd>macrophages</kwd>
            </kwd-group>
            <funding-group>
                <award-group id="fund-1">
                    <funding-source>National Institutes of Health</funding-source>
                    <award-id>U19AI111276</award-id>
                </award-group>
                <funding-statement>This study was supported by the National Institute of Allergy and Infectious Diseases at the National Institutes of Health award U19AI111276 (TB Research Unit Network). </funding-statement>
                <funding-statement>
                    <italic>The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.</italic>
                </funding-statement>
            </funding-group>
        </article-meta>
        <notes>
            <sec sec-type="editor-note">
                <title>Editorial Note on the Review Process</title>
                <p>
                    <ext-link ext-link-type="uri" xlink:href="http://f1000research.com/browse/faculty-reviews">F1000 Faculty Reviews</ext-link> are commissioned from members of the prestigious
                    <ext-link ext-link-type="uri" xlink:href="http://f1000.com/prime/thefaculty">F1000 Faculty</ext-link> and are edited as a service to readers. In order to make these reviews as comprehensive and accessible as possible, the referees provide input before publication and only the final, revised version is published. The referees who approved the final version are listed with their names and affiliations but without their reports on earlier versions (any comments will already have been addressed in the published version).</p>
                <p>The referees who approved this article are: </p>
                <list list-content="reviewer-list" list-type="simple">
                    <list-item>
                        <p>
                            <named-content content-type="reviewer-name">Xiao-Yong Fan</named-content>, Key Laboratory of Medical Molecular Virology of MOE/MOH, Shanghai Public Health Clinical Center, Fudan University, Shanghai, China
                            <fn fn-type="conflict">
                                <p>No competing interests were disclosed.</p>
                            </fn>
                        </p>
                    </list-item>
                    <list-item>
                        <p>
                            <named-content content-type="reviewer-name">Vishwanath Venketaraman</named-content>, Department of Basic Medical Sciences, College of Osteopathic Medicine of the Pacific, Western University of Health Sciences, Pomona, CA, USA
                            <fn fn-type="conflict">
                                <p>No competing interests were disclosed.</p>
                            </fn>
                        </p>
                    </list-item>
                    <list-item>
                        <p>
                            <named-content content-type="reviewer-name">Jordi B. Torrelles</named-content>, Texas Biomedical Research Institute, San Antonio, TX, USA
                            <fn fn-type="conflict">
                                <p>No competing interests were disclosed.</p>
                            </fn>
                        </p>
                    </list-item>
                </list>
            </sec>
        </notes>
    </front>
    <body>
        <sec sec-type="intro">
            <title>Introduction</title>
            <p>Tuberculosis (TB) is now the leading cause of death from a single infectious agent, 
                <italic toggle="yes">Mycobacterium tuberculosis</italic>
                <sup>
                    <xref ref-type="bibr" rid="ref-1">1</xref>
                </sup>. An estimated 1.3 million TB-related deaths were reported globally among HIV-negative individuals in 2017
                <sup>
                    <xref ref-type="bibr" rid="ref-1">1</xref>,
                    <xref ref-type="bibr" rid="ref-2">2</xref>
                </sup>. Nearly 23% of the world&#x2019;s population is estimated to have a latent TB infection (LTBI), and 5 to 10% are at risk for progressing to active TB disease over the course of their lifetime
                <sup>
                    <xref ref-type="bibr" rid="ref-3">3</xref>&#x2013;
                    <xref ref-type="bibr" rid="ref-5">5</xref>
                </sup>, consequently propagating the cycle of transmission. The lack of an effective vaccine, poor diagnostics and treatment management, along with the emergence of drug-resistant forms of 
                <italic toggle="yes">M. tuberculosis</italic> have further sustained the global TB epidemic
                <sup>
                    <xref ref-type="bibr" rid="ref-6">6</xref>
                </sup>. Moreover, poorly characterized immune mechanisms of anti-mycobacterial host defense continue to challenge the development of robust host-directed therapeutic strategies.</p>
            <p>The common tests for TB screening include the tuberculin skin test (TST) and the blood test interferon gamma release assay (IGRA), which test for prior exposure to mycobacterial protein antigens. In high-burden TB settings, following frequent and heavy 
                <italic toggle="yes">M. tuberculosis</italic> exposure, the majority of infected individuals remain asymptomatic and TST/IGRA-positive and only around 10% progress to active TB disease
                <sup>
                    <xref ref-type="bibr" rid="ref-4">4</xref>,
                    <xref ref-type="bibr" rid="ref-5">5</xref>
                </sup>. Emerging evidence from several TB-endemic cohort studies involving active TB patients and their household contacts has identified another group of exposed individuals, referred to here as &#x201c;resister&#x201d; individuals, who never acquire infection or clear the pathogen and remain asymptomatic and persistently negative for TST and IGRA reactivity
                <sup>
                    <xref ref-type="bibr" rid="ref-4">4</xref>,
                    <xref ref-type="bibr" rid="ref-7">7</xref>
                </sup>. The prevalence of these individuals and their defining characteristics are described next.</p>
            <sec>
                <title>Evidence for the &#x201c;resister&#x201d; phenotype</title>
                <p>Frequently exposed, persistently TST-negative &#x201c;resister&#x201d; individuals were identified as early as 1937 among student nurses at the Boston City Hospital (Boston, MA, USA) who were annually screened for TB over a five-year study period
                    <sup>
                        <xref ref-type="bibr" rid="ref-8">8</xref>
                    </sup>. Around the same time period, they were also reported to be present among students who frequently dealt with TB patients in other hospitals such as the Wisconsin General Hospital
                    <sup>
                        <xref ref-type="bibr" rid="ref-9">9</xref>
                    </sup> and the University of Minnesota
                    <sup>
                        <xref ref-type="bibr" rid="ref-10">10</xref>
                    </sup>. In 1966, enlisted personnel onboard the naval ship 
                    <italic toggle="yes">USS Richard E. Byrd</italic> shared the same work areas with an index case of pulmonary TB. About 10% were negative for the purified protein derivative (PPD) skin test despite being heavily and frequently exposed in a closed environment, while most personnel showed a positive PPD accompanied by LTBI or the development of active TB
                    <sup>
                        <xref ref-type="bibr" rid="ref-11">11</xref>
                    </sup>. Identification of resisters among close contacts of pulmonary TB patients in India, Pakistan, and Bahia has also been reported
                    <sup>
                        <xref ref-type="bibr" rid="ref-4">4</xref>
                    </sup>. Together, these studies clearly indicate that there is evidence for the existence of resister individuals among the exposed. However, the frequency of occurrence of resisters has differed across such population studies since the defining characteristics of the resister phenotype have been largely inconsistent.</p>
            </sec>
            <sec>
                <title>Identification and classification of resisters</title>
                <p>Several caveats exist when it comes to correctly identifying and classifying the resister phenotype. The very definition of this phenotype makes the assumption of having repeated exposure to infectious doses of 
                    <italic toggle="yes">M. tuberculosis</italic> and is based on the reactivity to the TST and IGRA tests
                    <sup>
                        <xref ref-type="bibr" rid="ref-4">4</xref>,
                        <xref ref-type="bibr" rid="ref-5">5</xref>
                    </sup>. However, a localized protective immune response within the lung mucosa may not be systemically detected by these tests. Furthermore, these tests do not reflect or quantify the level of pathogen exposure or the status of infection and it has been argued that resisters simply have not had sufficient exposure to an infectious dose. Nevertheless, cohorts where contacts had a comparable intensity of exposure still identify this phenotype, suggesting that criteria for study enrollment need to be more stringent to avoid misclassification
                    <sup>
                        <xref ref-type="bibr" rid="ref-4">4</xref>,
                        <xref ref-type="bibr" rid="ref-7">7</xref>
                    </sup>. The presence and prevalence of &#x201c;true&#x201d; resisters thus can be reasonably estimated in future cohort investigations by employing a longitudinal follow-up period that is supported by repeat testing to minimize false negatives and taking into account the duration and intensity of exposure to the index case
                    <sup>
                        <xref ref-type="bibr" rid="ref-4">4</xref>
                    </sup>. Additionally, the influence of age, gender, co-morbidities, and environmental factors needs to be considered when evaluating the resister phenotype.</p>
            </sec>
            <sec>
                <title>Host innate immune responses against 
                    <italic toggle="yes">Mycobacterium tuberculosis</italic>
                </title>
                <p>Conventionally, experimental models have shown that, following exposure and infection of the airways and lung parenchyma, the early host immune response to 
                    <italic toggle="yes">M. tuberculosis</italic> involves an influx of phagocytic cells such as mononuclear cells and neutrophils
                    <sup>
                        <xref ref-type="bibr" rid="ref-5">5</xref>,
                        <xref ref-type="bibr" rid="ref-12">12</xref>
                    </sup>. Alveolar macrophages (AMs) are the primary cellular niche for intracellular 
                    <italic toggle="yes">M. tuberculosis</italic> survival and chemokines secreted by infected AMs initiate immune cell recruitment to the lungs for bacterial clearance during early infection
                    <sup>
                        <xref ref-type="bibr" rid="ref-13">13</xref>,
                        <xref ref-type="bibr" rid="ref-14">14</xref>
                    </sup>. Induction of anti-mycobacterial mechanisms, such as production of pro-inflammatory cytokines, reactive oxygen and nitrogen intermediates, anti-microbial peptides, phagosome acidification, and autophagy induction then facilitate bacterial killing
                    <sup>
                        <xref ref-type="bibr" rid="ref-5">5</xref>,
                        <xref ref-type="bibr" rid="ref-13">13</xref>,
                        <xref ref-type="bibr" rid="ref-15">15</xref>
                    </sup>. Infected macrophages are also known to undergo apoptosis to restrict 
                    <italic toggle="yes">M. tuberculosis</italic> growth and enhance antigen presentation by dendritic cells, inducing an early 
                    <italic toggle="yes">M. tuberculosis</italic>&#x2013;specific interferon gamma (IFN-&#x03b3;)-mediated type 1-helper (Th1) T-cell response
                    <sup>
                        <xref ref-type="bibr" rid="ref-16">16</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-18">18</xref>
                    </sup>. Recent studies in mice and non-human primate models suggest that innate-like T cells
                    <sup>
                        <xref ref-type="bibr" rid="ref-19">19</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-21">21</xref>
                    </sup> and humoral immunity
                    <sup>
                        <xref ref-type="bibr" rid="ref-22">22</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-24">24</xref>
                    </sup> also play a protective role in the control of intracellular pathogens.</p>
                <p>Since resisters display persistent TST/IGRA negativity, it can be postulated that robust innate immune responses enable early mycobacterial clearance in these individuals and circumvent the need for the conventional IFN-&#x03b3;&#x2013;dependent T cell&#x2013;mediated adaptive immunity observed in LTBI. Additionally, the screening tests have been widely regarded as incomplete measures of an anti-mycobacterial response because they do not detect unconventional IFN-&#x03b3;&#x2013;independent cytokine responses, antibody-mediated responses, or immune responses directed against non-protein mycobacterial antigens
                    <sup>
                        <xref ref-type="bibr" rid="ref-4">4</xref>,
                        <xref ref-type="bibr" rid="ref-5">5</xref>,
                        <xref ref-type="bibr" rid="ref-25">25</xref>
                    </sup>. Despite repeated exposure to 
                    <italic toggle="yes">M. tuberculosis</italic>, mycobacterial resistance could be established as a result of such largely overlooked immune responses and remain uncharacterized. Although genetic susceptibility to 
                    <italic toggle="yes">M. tuberculosis</italic> assessed by genome-wide analyses has associated factors such as polymorphisms and mutations in influencing TST reactivity or Toll-like receptor (TLR) pathways, the broad functional effects of such elements are unknown in the context of infection
                    <sup>
                        <xref ref-type="bibr" rid="ref-4">4</xref>,
                        <xref ref-type="bibr" rid="ref-26">26</xref>,
                        <xref ref-type="bibr" rid="ref-27">27</xref>
                    </sup>. Emerging evidence also strongly indicates that genetic variation among 
                    <italic toggle="yes">M. tuberculosis</italic> strains significantly impacts the host immune response, enabling immune evasion strategies that promote mycobacterial replication, dissemination, and subsequent transmission
                    <sup>
                        <xref ref-type="bibr" rid="ref-28">28</xref>,
                        <xref ref-type="bibr" rid="ref-29">29</xref>
                    </sup>. Thus, understanding the mechanistic basis of the early events leading up to the establishment of resistance will allow the identification of correlates of protection which can be harnessed to develop novel host-directed therapeutic strategies.</p>
                <p>This review will further summarize recent advances in the context of resistance to 
                    <italic toggle="yes">M. tuberculosis</italic> infection and also highlight the potential involvement of alternate pathways that might contribute to rapid mycobacterial clearance observed in frequently exposed, persistently TST- and IGRA-negative individuals. We will also discuss the implications of such findings and how they pertain to the development of robust host-directed therapeutic strategies.</p>
            </sec>
        </sec>
        <sec>
            <title>Recent findings from tuberculosis-endemic cohort studies</title>
            <p>Owing to the severity of infection observed in the absence of IFN-&#x03b3;
                <sup>
                    <xref ref-type="bibr" rid="ref-30">30</xref>
                </sup>, it is often thought to be the chief mechanism by which the host controls 
                <italic toggle="yes">M. tuberculosis</italic> infection. However, as discussed earlier, there is increasing evidence that IFN-&#x03b3; is not a robust correlate of protection
                <sup>
                    <xref ref-type="bibr" rid="ref-31">31</xref>
                </sup> and that alternate mechanisms of inducing protective immunity exist in resisters. In this section, we will further highlight recent reports from various cohorts that have sought to identify and elucidate some of these protective immune mechanisms in resisters, providing significant insights into factors that potentially mediate mycobacterial resistance.</p>
            <sec>
                <title>Transcriptional response of monocytes (Kampala, Uganda)</title>
                <p>A longitudinal cohort established in Uganda identified 872 index cases and 2585 household contacts, of whom 255 (9.9%) were persistently TST-negative on repeated testing over two years of follow-up
                    <sup>
                        <xref ref-type="bibr" rid="ref-32">32</xref>
                    </sup>. Genome-wide transcriptional profiling was conducted by using peripheral blood monocytes from resister and LTBI individuals who were infected 
                    <italic toggle="yes">ex vivo</italic> with 
                    <italic toggle="yes">M. tuberculosis</italic> H37Rv. With a systems biology approach, gene sets associated with the histone deacetylase (HDAC) function were found to be the top differentially activated genes among these groups. Treatment of U397 monocytes with small-molecule inhibitors of HDAC, depsipeptide, and sodium butyrate suppressed the secretion of pro-inflammatory cytokines interleukin-1 beta (IL-1&#x03b2;), IL-6, and tumor necrosis factor (TNF) against 
                    <italic toggle="yes">M. tuberculosis</italic> infection
                    <sup>
                        <xref ref-type="bibr" rid="ref-32">32</xref>
                    </sup>. These data further indicate that HDAC function might be a vital player modulating the early innate immune response in resisters, and whether epigenetic modifications in response to infection lead to distinct transcriptional modifications should be further explored.</p>
            </sec>
            <sec>
                <title>Functional response of innate T-cell subsets (Port-au-Prince, Haiti)</title>
                <p>Between 2015 and 2017, a cross-sectional study conducted in Haiti enrolled 92 household contacts of pulmonary TB patients and 591 community controls which were sampled to obtain an age-, sex-, and IGRA-matched subset of 31 TB household contacts and 45 unexposed community controls
                    <sup>
                        <xref ref-type="bibr" rid="ref-33">33</xref>
                    </sup>. Exposed but uninfected IGRA-negative resisters (12 out of 31; 39%) showed no IGRA-positive conversion after a 6-month follow-up. The abundance and functional profiles of innate T cells including Mucosal-associated invariant T (MAIT) cells that recognize riboflavin pathway metabolites; &#x03b3;&#x03b4; T-cell receptor (TCR) T cells that recognize phosphoantigens; and invariant natural killer T (iNKT) cells that recognize glycolipids via their CD1 molecules, were compared among contacts and their community controls. There were no differences in the abundance of innate T cells in contacts compared with controls; however, resisters were shown to have robust CD8
                    <sup>+</sup> MAIT cell IL-2R&#x03b1; chain (CD25) expression and granzyme B production upon CD3-TCR stimulation, which also was associated with a depressed CD69 and IFN-&#x03b3; response when compared with LTBI controls
                    <sup>
                        <xref ref-type="bibr" rid="ref-33">33</xref>
                    </sup>. Additionally, 
                    <italic toggle="yes">M. tuberculosis</italic> exposure was found to be associated with differences in gut microbial composition across households, correlating with MAIT cell abundance and function, also suggesting a role for the intestinal microbiome in modulating innate T-cell subset responses
                    <sup>
                        <xref ref-type="bibr" rid="ref-33">33</xref>
                    </sup>.</p>
            </sec>
            <sec>
                <title>Protective antibody responses in health-care workers (Beijing, China)</title>
                <p>In a study conducted at the Beijing Chest Hospital, IgG antibodies were isolated from 48 health-care workers (also comprising exposed yet IGRA-negative workers) who worked at the hospital for at least three years and who were compared with 12 patients with active TB
                    <sup>
                        <xref ref-type="bibr" rid="ref-24">24</xref>
                    </sup>. Health-care workers were categorized as having LTBI or &#x201c;highly exposed but uninfected&#x201d; (HEBUI) on the basis of enzyme-linked immune absorbent spot (ELISpot) testing. Importantly, antibodies from seven health-care workers passively conferred moderate protection against a low-dose 
                    <italic toggle="yes">M. tuberculosis</italic> mouse aerosol infection model, three of whom were IGRA-negative while the rest had evidence of LTBI. With an 
                    <italic toggle="yes">in vitro</italic> whole blood assay, three donors (including one HEBUI donor) were shown to neutralize 
                    <italic toggle="yes">M. tuberculosis</italic> and offer 2- to 3.3-fold protective antibody responses. These antibody responses were targeted against mycobacterial surface antigens and were shown to be dependent on immune complexes and CD4
                    <sup>+</sup> T cells for their functional efficacy
                    <sup>
                        <xref ref-type="bibr" rid="ref-24">24</xref>
                    </sup>. Their findings further suggest that since CD4
                    <sup>+</sup> T cells were required for efficacy, they either are not specific for conserved antigens ESAT-6 or CFP-10 or do not secrete IFN-&#x03b3; in response to antigen.</p>
            </sec>
            <sec>
                <title>Innate cells and cytokines associated with early clearance (Bandung, Indonesia)</title>
                <p>Among 1347 exposed TB case contacts enrolled in a cohort study in Bandung, Indonesia, 317 were identified as &#x201c;early clearers&#x201d; who remained persistently IGRA-negative and 116 were identified as &#x201c;converters&#x201d; at 2-week and 14-week post-enrollment by repeat IGRA testing
                    <sup>
                        <xref ref-type="bibr" rid="ref-34">34</xref>
                    </sup>. Flow cytometric analysis of immune cell populations demonstrated a profile associated with the resolving innate cellular response from 2 to 14 weeks in persistently IGRA-negative contacts but not converters. There were no differences in cytokine responses to mycobacterial stimuli among these two groups of individuals, but compared with converters, persistently IGRA-negative contacts produced more pro-inflammatory cytokines when stimulated with other pathogens such as 
                    <italic toggle="yes">Escherichia coli</italic> and 
                    <italic toggle="yes">Streptococcus pneumoniae</italic>. The authors further hypothesize that early clearance is mediated by epigenetic and cellular metabolic changes that may be a consequence of trained immunity
                    <sup>
                        <xref ref-type="bibr" rid="ref-34">34</xref>
                    </sup>. The authors also emphasize that early clearers in this cohort had a lower exposure to 
                    <italic toggle="yes">M. tuberculosis</italic> when compared with converters and would have led to misidentification, highlighting the need to have stringent criteria to identify and define resisters.</p>
            </sec>
            <sec>
                <title>Interferon gamma&#x2013;independent responses (Kampala, Uganda)</title>
                <p>Recently, IFN-&#x03b3;&#x2013;independent response was the subject of investigation in a re-tracing study of the Ugandan cohort described previously. Of the 441 (63.8% of the original 2014&#x2013;2017 cohort) individuals who consented to the re-tracing study, 82 resisters and 195 LTBI individuals were definitively identified on the basis of concordant reactivity to repeat TST and IGRA testing
                    <sup>
                        <xref ref-type="bibr" rid="ref-23">23</xref>
                    </sup>. It was demonstrated that &#x201c;resisters&#x201d; possess IgM and class-switched IgG antibodies that were skewed toward IgG1 as observed in subclass ratios when compared with LTBI controls, further indicating that resisters possess affinity-matured antibodies in response to prolonged exposure to 
                    <italic toggle="yes">M. tuberculosis</italic>. PPD-specific, Fc-glycan profiles were different across the groups, and resisters demonstrated elevated levels of singly galactosylated (G1), highly fucosylated, bisected, and decreased sialylation. Importantly, these resisters also displayed detectable ESAT6/CFP10-specific CD4
                    <sup>+</sup> T-cell responses characterized by the absence of IFN-&#x03b3; but the presence of TNF
                    <sup>+</sup>IL-2
                    <sup>+</sup>CD40L/CD154
                    <sup>+</sup>, IL-2
                    <sup>+</sup>CD40L/CD154
                    <sup>+</sup>, CD40L/CD154 alone or CD107a alone T-cell subsets, indicating the involvement of an unconventional IFN-&#x03b3;&#x2013;independent adaptive immune response
                    <sup>
                        <xref ref-type="bibr" rid="ref-23">23</xref>
                    </sup>. The authors propose that a distinct Th pathway (T-follicular, Th2, Th17, Th1) is likely induced in response to differential exposure that influences major histocompatibility complex&#x2013;mediated antigen processing and presentation in response to 
                    <italic toggle="yes">M. tuberculosis</italic> infection.</p>
                <p>Collectively, these reports strongly suggest that resisters possess distinct immunological mechanisms that allow them to remain uninfected. However, whether a single dominant mechanism or multiple complementary mechanisms give rise to the protective response in resisters is still unclear. In the next section, we discuss additional immune mechanisms that could also mediate early and rapid clearance of 
                    <italic toggle="yes">M. tuberculosis</italic>.</p>
            </sec>
        </sec>
        <sec>
            <title>Additional effector mechanisms modulating the establishment of mycobacterial resistance</title>
            <sec>
                <title>Responses mediated by the lung mucosa</title>
                <p>The respiratory epithelium is essentially the first line of defense against pathogens since it serves as a physical and functional barrier that is actively involved in pathogen clearance. The innate pulmonary host defenses are supplemented by the anatomical structures of the conducting and peripheral airways which are lined by diverse populations of epithelial cells and submucosal glands
                    <sup>
                        <xref ref-type="bibr" rid="ref-35">35</xref>
                    </sup>. Additionally, epithelial cells recognize pathogen-associated molecular patterns and danger-associated molecular patterns via their pattern-recognition receptors (PRRs) that include plasma membrane TLRs and soluble cytosolic Nod-like receptors and initiate signaling to recruit immune cells
                    <sup>
                        <xref ref-type="bibr" rid="ref-36">36</xref>,
                        <xref ref-type="bibr" rid="ref-37">37</xref>
                    </sup>. Following inhalation, the most common route of 
                    <italic toggle="yes">M. tuberculosis</italic> transmission occurs following the deposition of bacilli in the alveolar sacs within the lung. The alveolar compartment is lined with pneumocytes such as squamous type I alveolar epithelial cells (AEC I) and cuboidal type II alveolar epithelial cells (AEC II)
                    <sup>
                        <xref ref-type="bibr" rid="ref-20">20</xref>
                    </sup>. While AEC I facilitate gas exchange and take part in sensing microbial products, AEC II also function as non-professional antigen-presenting cells and secrete a broad variety of cytokines and chemokines that are involved in activation and differentiation of immune effector cells
                    <sup>
                        <xref ref-type="bibr" rid="ref-20">20</xref>,
                        <xref ref-type="bibr" rid="ref-38">38</xref>
                    </sup>. It is unclear whether 
                    <italic toggle="yes">M. tuberculosis</italic> can invade and replicate within AEC II or other respiratory epithelial cells during natural infection; however, A549 lung epithelial cells infected with 
                    <italic toggle="yes">M. tuberculosis</italic> bacilli have been observed to be rapidly killed 
                    <italic toggle="yes">in vitro</italic>
                    <sup>
                        <xref ref-type="bibr" rid="ref-39">39</xref>,
                        <xref ref-type="bibr" rid="ref-40">40</xref>
                    </sup>. Such initial mycobacterial interactions with the lung epithelium could shape the course of the ensuing innate immune effector response, thus establishing early mycobacterial resistance. Genetic susceptibility to 
                    <italic toggle="yes">M. tuberculosis</italic> has been associated with polymorphisms in pathogen-sensing TLR pathway mediators such as Toll-interacting protein (TOLLIP) and TST1 and TST2 loci that influence TST reactivity
                    <sup>
                        <xref ref-type="bibr" rid="ref-4">4</xref>,
                        <xref ref-type="bibr" rid="ref-26">26</xref>,
                        <xref ref-type="bibr" rid="ref-27">27</xref>
                    </sup>. Inhibition of 
                    <italic toggle="yes">M. tuberculosis</italic> uptake to prevent infection is an obvious target for host-directed therapy; however, the presence of extracellular bacilli would likely dampen the host&#x2019;s ability to kill these bacilli. In addition to surface PRRs, cytosolic detection of microbial DNA and cyclic di-nucleotides occurs via cGAMP synthase (cGAS) binding of microbial DNA to produce 2'3'-cyclic GMP-AMP (cGAMP) and activates stimulator of interferon genes (STING), making both STING and cGAS key targets of investigation for potential therapeutic manipulation of responses from the lungs
                    <sup>
                        <xref ref-type="bibr" rid="ref-41">41</xref>
                    </sup>. It remains unclear whether inhibitors of surface PRRs and cytosolic sensors are sufficient to impair subsequent bacterial pathogenesis and warrant comprehensive examination.</p>
                <p>Lung epithelial cells are known to secrete soluble surfactant proteins (SPs) complement proteins, lysozyme, and anti-microbial peptides (APs) such as cathelicidin peptide LL-37 and &#x03b2;-defensins into the alveolar space, further indicating that such secretory proteins possess the potential to aid in early pathogen clearance
                    <sup>
                        <xref ref-type="bibr" rid="ref-42">42</xref>,
                        <xref ref-type="bibr" rid="ref-43">43</xref>
                    </sup>. SP-A and SP-D polymorphisms are known to be associated with susceptibility to TB disease
                    <sup>
                        <xref ref-type="bibr" rid="ref-44">44</xref>
                    </sup>. In fact, in a case-controlled study of 364 patients with TB and 177 control subjects in Taiwan, the SP-D 92T homozygous genotype was found to be a risk factor for TB
                    <sup>
                        <xref ref-type="bibr" rid="ref-45">45</xref>
                    </sup>. 
                    <italic toggle="yes">In vitro</italic> assays further supplemented this finding by demonstrating that this variant had a lower binding ability to 
                    <italic toggle="yes">Mycobacterium bovis</italic> as well as a lower capacity to inhibit phagocytosis, resulting in less inhibition of intracellular growth of 
                    <italic toggle="yes">M. bovis</italic>
                    <sup>
                        <xref ref-type="bibr" rid="ref-45">45</xref>
                    </sup>. It remains to be elucidated whether such polymorphisms exist in resisters and the consequent functional effects on early clearance. Additionally, APs such as the &#x03b2;-defensins HBD-2 and HDB-4 are expressed in response to activation of epithelial TLRs and decreased levels of these APs were shown in airways of individuals with chronic obstructive pulmonary disease
                    <sup>
                        <xref ref-type="bibr" rid="ref-35">35</xref>,
                        <xref ref-type="bibr" rid="ref-46">46</xref>
                    </sup>. Although the protective roles of APs are well characterized in the context of inflammatory skin disorders
                    <sup>
                        <xref ref-type="bibr" rid="ref-47">47</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-49">49</xref>
                    </sup>, there is emerging evidence that APs do play a dynamic role in 
                    <italic toggle="yes">M. tuberculosis</italic> control
                    <sup>
                        <xref ref-type="bibr" rid="ref-50">50</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-52">52</xref>
                    </sup>. AP expression has been shown to be induced by the IL-17/IL-22 cytokine axis as well as IL-1 cluster of cytokines such as IL-36&#x03b3;
                    <sup>
                        <xref ref-type="bibr" rid="ref-47">47</xref>,
                        <xref ref-type="bibr" rid="ref-53">53</xref>,
                        <xref ref-type="bibr" rid="ref-54">54</xref>
                    </sup>. These cytokines have also been shown to induce Th1 immune responses, which are critical for controlling intracellular bacterial pathogens
                    <sup>
                        <xref ref-type="bibr" rid="ref-55">55</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-57">57</xref>
                    </sup>. In THP-1 alveolar macrophages, IL-36&#x03b3;&#x2013;induced APs restrict 
                    <italic toggle="yes">M. tuberculosis</italic> H37Rv growth
                    <sup>
                        <xref ref-type="bibr" rid="ref-58">58</xref>
                    </sup>. It is likely that pathogen sensing by the respiratory mucosa induces distinct functional pathways resulting in the production of APs that are able to successfully restrict 
                    <italic toggle="yes">M. tuberculosis</italic> growth early on following exposure, either via direct neutralization or via indirect pathways, and need to be mechanistically defined in resisters. In this regard, vitamin D (Vit D) has been the subject of several investigations in its ability to induce cathelicidin anti-microbial peptide (CAMP) via signaling through the Vit D receptor
                    <sup>
                        <xref ref-type="bibr" rid="ref-59">59</xref>
                    </sup>. Some studies have demonstrated that Vit D deficiency was associated with an increased risk of TB and that Vit D supplementation in fact improved 
                    <italic toggle="yes">M. tuberculosis</italic> growth restriction in patients when compared with controls
                    <sup>
                        <xref ref-type="bibr" rid="ref-60">60</xref>
                    </sup>. Class I HDAC inhibitors that modify chromatin and cell signaling are also known to induce cathelicin production and restrict 
                    <italic toggle="yes">M. tuberculosis</italic> growth by synergizing with Vit D
                    <sup>
                        <xref ref-type="bibr" rid="ref-4">4</xref>,
                        <xref ref-type="bibr" rid="ref-61">61</xref>
                    </sup>. A summary of findings from clinical trials evaluating Vit D therapy
                    <sup>
                        <xref ref-type="bibr" rid="ref-62">62</xref>
                    </sup> details insights from other respiratory infections, providing inferences to strengthen future experimental designs and investigations for 
                    <italic toggle="yes">M. tuberculosis</italic>. Natural and synthetically engineered APs represent potential therapeutic agents that should be evaluated for their potential to neutralize or restrict 
                    <italic toggle="yes">M. tuberculosis</italic> growth
                    <sup>
                        <xref ref-type="bibr" rid="ref-63">63</xref>
                    </sup>.</p>
                <p>Alveolar macrophages, MAIT cells, and tissue-resident memory T cells represent some of the immune cell populations that reside within the lung
                    <sup>
                        <xref ref-type="bibr" rid="ref-20">20</xref>
                    </sup>. These cell populations have been shown to be induced and maintained long-term following initial pathogen exposure and are able to rapidly induce 
                    <italic toggle="yes">M. tuberculosis</italic>&#x2013;specific recall responses that provide immediate and effective protection at the portals of entry
                    <sup>
                        <xref ref-type="bibr" rid="ref-64">64</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-66">66</xref>
                    </sup>. Thus, protection mediated by such lung-resident immune cells may not be reflected in the systemic immune response and might be the dominant protective immune mechanism that is employed by resisters. Experimental mouse models further complement this hypothesis and have shown that accelerating effector cell production and delivery to lung in primary 
                    <italic toggle="yes">M. tuberculosis</italic> infection improves the infection outcome
                    <sup>
                        <xref ref-type="bibr" rid="ref-65">65</xref>
                    </sup>. Recently, it was demonstrated that subcutaneous vaccination of rhesus macaques with cytomegalovirus vectors encoding 
                    <italic toggle="yes">M. tuberculosis</italic> antigen inserts was able to elicit and maintain differentiated, circulating, and tissue-resident 
                    <italic toggle="yes">M. tuberculosis</italic>&#x2013;specific CD4
                    <sup>+</sup> and CD8
                    <sup>+</sup> memory T-cell responses
                    <sup>
                        <xref ref-type="bibr" rid="ref-67">67</xref>
                    </sup>. The overall extent of infection and disease was reduced by 68% compared with unvaccinated controls after intra-bronchial 
                    <italic toggle="yes">M. tuberculosis</italic> challenge
                    <sup>
                        <xref ref-type="bibr" rid="ref-67">67</xref>
                    </sup>. Although the development of strong experimental models that mimic the local lung environment in resisters is challenging, vaccine therapies that are able to induce a robust effector response within the lung should be the subject of future research.</p>
            </sec>
            <sec>
                <title>Macrophage-mediated 
                    <italic toggle="yes">Mycobacterium tuberculosis</italic> growth restriction</title>
                <p>Following exposure and infection, macrophages are at the forefront of orchestrating the immune response against 
                    <italic toggle="yes">M. tuberculosis</italic>, facilitating immune cell recruitment from peripheral blood for early pathogen clearance or containment
                    <sup>
                        <xref ref-type="bibr" rid="ref-4">4</xref>,
                        <xref ref-type="bibr" rid="ref-5">5</xref>
                    </sup>. Furthermore, macrophages are widely regarded as the primary niche for 
                    <italic toggle="yes">M. tuberculosis</italic> growth and survival
                    <sup>
                        <xref ref-type="bibr" rid="ref-5">5</xref>
                    </sup> and it is likely that macrophage-dependent pathways could clear initial 
                    <italic toggle="yes">M. tuberculosis</italic> infection in resisters before the development of an adaptive immune response. While apoptosis of infected macrophages represents an important innate host defense modality limiting the viability of intracellular 
                    <italic toggle="yes">M. tuberculosis</italic>, necrosis is often employed as a virulence strategy by 
                    <italic toggle="yes">M. tuberculosis</italic> to promote mycobacterial dissemination
                    <sup>
                        <xref ref-type="bibr" rid="ref-16">16</xref>,
                        <xref ref-type="bibr" rid="ref-68">68</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-70">70</xref>
                    </sup>. Pro-inflammatory eicosanoids prostaglandin E (PGE) and anti-inflammatory lipoxin (LX) have been shown to modulate macrophage apoptosis and are critical to determining the outcome of 
                    <italic toggle="yes">M. tuberculosis</italic> infection in the host
                    <sup>
                        <xref ref-type="bibr" rid="ref-18">18</xref>,
                        <xref ref-type="bibr" rid="ref-71">71</xref>
                    </sup>. Interestingly, prostaglandin E synthase (Ptges)
                    <sup>-/-</sup> mice and prostaglandin receptor EP2
                    <sup>-/-</sup> were shown to have increased susceptibility to 
                    <italic toggle="yes">M. tuberculosis</italic> infection
                    <sup>
                        <xref ref-type="bibr" rid="ref-72">72</xref>
                    </sup>, suggesting that PGE
                    <sub>2</sub> and the apoptotic death of macrophages might be critical in regulating 
                    <italic toggle="yes">M. tuberculosis</italic> growth 
                    <italic toggle="yes">in vivo</italic>. Another study showed that 5-lipooxygenase (
                    <italic toggle="yes">Alox5
                        <sup>-/-</sup>
                    </italic>) mice lacking the enzyme required for both pro-inflammatory leukotriene (LT) and LX biosynthesis exhibited significantly lower 
                    <italic toggle="yes">M. tuberculosis</italic> lung burdens when compared with wild-type mice
                    <sup>
                        <xref ref-type="bibr" rid="ref-73">73</xref>
                    </sup>. The zebrafish 
                    <italic toggle="yes">Mycobacterium marinum</italic> model identified that variations in LTA
                    <sub>4</sub>H levels influence the balance between pro-inflammatory LTB
                    <sub>4</sub> and anti-inflammatory LXA
                    <sub>4</sub>
                    <sup>
                        <xref ref-type="bibr" rid="ref-74">74</xref>
                    </sup>. Collectively, these studies suggest that striking the proper balance between the levels of eicosanoids influences the modality of cell death and might be critical for the successful early control of 
                    <italic toggle="yes">M. tuberculosis</italic>. Extensive studies are necessary to determine whether the two forms of cell death are differentially regulated in resisters, subsequently affecting mycobacterial growth and pathogenesis 
                    <italic toggle="yes">in vivo</italic>.</p>
                <p>In contrast to apoptosis and necrosis, autophagy is a fundamental method of maintaining homeostasis via the degradation of cytoplasmic contents in lysosomes and has recently been established as an innate immune defense pathway in mouse models of TB autophagy
                    <sup>
                        <xref ref-type="bibr" rid="ref-75">75</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-77">77</xref>
                    </sup>. Protein aggregates or defective organelles are sequestered by double-membrane structures called isolation membranes or phagophores, which mature into autophagosomes that are capable of fusing with lysosomes
                    <sup>
                        <xref ref-type="bibr" rid="ref-76">76</xref>
                    </sup>. Mammalian target of rapamycin (mTOR) kinase negatively regulates autophagosome generation by targeting the initiation complex components such as the PI3KC3 (class III phosphoinositide 3-kinase complex 3), ULK1 (unc-51-like kinase 1) complex, and ATG complex. Inactivation of the mTOR kinase is likely to specifically impact autophagy
                    <sup>
                        <xref ref-type="bibr" rid="ref-78">78</xref>
                    </sup>. For this reason, mTOR inhibition therapy has recently garnered interest in inducing autophagy as a protective mechanism against 
                    <italic toggle="yes">M. tuberculosis</italic>
                    <sup>
                        <xref ref-type="bibr" rid="ref-79">79</xref>
                    </sup>. Conventional anti-microbial peptides such as cathelicidin and neo-anti-microbial peptides known as cryptides are generated as a result of autophagy that aid in intracellular 
                    <italic toggle="yes">M. tuberculosis</italic> killing
                    <sup>
                        <xref ref-type="bibr" rid="ref-75">75</xref>
                    </sup>. IL-1&#x03b2; induces autophagy in a MyD88-dependent fashion and promotes autophagosomal maturation into degradative autolysosomes
                    <sup>
                        <xref ref-type="bibr" rid="ref-80">80</xref>
                    </sup>, signifying a potential role for IL-1&#x03b2; in innate mechanisms of host defense, although the extent to which IL-1&#x03b2; regulates the autophagy pathway and induction remains to be studied.</p>
                <p>Interestingly, IL-1 and type I IFNs represent two major counter-regulatory classes of inflammatory cytokines that control the outcome of infection
                    <sup>
                        <xref ref-type="bibr" rid="ref-18">18</xref>
                    </sup>. Induction of type I IFN is pathogenic in animal models of 
                    <italic toggle="yes">M. tuberculosis</italic>, and increased type I IFN activity correlates with active disease in humans
                    <sup>
                        <xref ref-type="bibr" rid="ref-81">81</xref>
                    </sup>. For example, mice lacking IFNAR survive longer than wild-type mice after 
                    <italic toggle="yes">M. tuberculosis</italic> infection
                    <sup>
                        <xref ref-type="bibr" rid="ref-82">82</xref>
                    </sup>. In infected mice and patients, reduced IL-1 responses or excessive type I IFN induction or both are linked to an eicosanoid imbalance associated with disease exacerbation
                    <sup>
                        <xref ref-type="bibr" rid="ref-18">18</xref>,
                        <xref ref-type="bibr" rid="ref-83">83</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-85">85</xref>
                    </sup>. In two human cohorts, patients with a lower PGE
                    <sub>2</sub>-to-LXA
                    <sub>4</sub> ratio had worse sputum grade
                    <sup>
                        <xref ref-type="bibr" rid="ref-86">86</xref>
                    </sup>. Moreover, mice lacking IL-1&#x03b1; and IL-1&#x03b2; expressed high type 1 IFN levels and treatment of these mice with a 5-LOX inhibitor, together with PGE
                    <sub>2</sub>, led to decreased lung pathology and bacterial burden
                    <sup>
                        <xref ref-type="bibr" rid="ref-86">86</xref>
                    </sup>. Taken together, these observations suggest that type 1 IFN responses might be suppressed in resisters and might instead play a prominent role in establishing LTBI or active TB disease and need to be mechanistically defined in future studies.</p>
            </sec>
            <sec>
                <title>Responses mediated by innate-like lymphoid cells</title>
                <p>Whereas conventional T cells exhibit a delayed onset upon primary infection and are clonally heterogeneous among human populations, innate-like T cells rapidly respond to pathogens and secrete cytokines without undergoing extensive clonal expansion to induce unique anti-mycobacterial immune defenses
                    <sup>
                        <xref ref-type="bibr" rid="ref-87">87</xref>&#x2013;
                        <xref ref-type="bibr" rid="ref-89">89</xref>
                    </sup>. The Haitian cohort described previously demonstrated that MAIT cells, but not iNKT cells or &#x03b3;&#x03b4; T cells, display evidence of prior activation
                    <sup>
                        <xref ref-type="bibr" rid="ref-33">33</xref>
                    </sup>. Recently, changes in peripheral levels of natural killer (NK) cells (that are known to induce non-major histocompatibility complex&#x2013;restricted cytotoxicity) were shown to indicate disease progression and treatment responses
                    <sup>
                        <xref ref-type="bibr" rid="ref-90">90</xref>
                    </sup>. NK cell levels were found to inversely correlate with the inflammatory state of the lungs of TB patients across three longitudinal cohort studies
                    <sup>
                        <xref ref-type="bibr" rid="ref-90">90</xref>
                    </sup>. However, it is unclear how all of these cell types respond to 
                    <italic toggle="yes">M. tuberculosis</italic> infection and whether they selectively proliferate in response to the presence of the pathogen. Additionally, in the context of an 
                    <italic toggle="yes">M. tuberculosis</italic> infection, innate lymphoid cells (ILCs) are a lesser-studied population. ILCs are broadly classified into three main subsets: ILC1 (IFN-&#x03b3;&#x2013;producing), ILC2 (IL-4&#x2013;, IL-5&#x2013;, and IL-13&#x2013;producing), and ILC3 (IL-17&#x2013; or IL-22&#x2013;producing or both). In the lung mucosa, ILC3s are an abundant lymphoid cell progenitor population that rapidly respond to microbial and cytokine signals
                    <sup>
                        <xref ref-type="bibr" rid="ref-19">19</xref>
                    </sup>. A significant reduction in all ILC populations was reported among 44 subjects with diagnosed active drug-susceptible and drug-resistant TB infections in comparison with healthy controls
                    <sup>
                        <xref ref-type="bibr" rid="ref-37">37</xref>,
                        <xref ref-type="bibr" rid="ref-91">91</xref>
                    </sup>. Recently, it was demonstrated that circulating subsets of ILCs (ILC1s and ILC3s) are depleted from the blood circulation in patients with pulmonary TB and their numbers are restored following treatment
                    <sup>
                        <xref ref-type="bibr" rid="ref-21">21</xref>
                    </sup>. ILCs were found to be present in lung tissues from participants with active TB disease and transcriptional profiling of ILCs isolated from these tissues further revealed genes associated with a coordinated response against 
                    <italic toggle="yes">M. tuberculosis</italic> infection. Furthermore, in a C57BL/6 mouse model, ILC3s accumulated in the lung, coinciding with the accumulation of alveolar macrophages, associating with lymphoid follicle-containing granulomas. Their accumulation was accompanied by the upregulation of CXCR5 on ILC3s and increased plasma levels of its ligand CXCL13. With 
                    <italic toggle="yes">Il17
                        <sup>-/-</sup> Il22
                        <sup>-/-</sup>
                    </italic> double-knockout mice, IL-17 and IL-22 were found to be critical inducers of CXCL13 and impaired ILC3 responses resulted in an increased bacterial burden
                    <sup>
                        <xref ref-type="bibr" rid="ref-21">21</xref>
                    </sup>. Although collectively these reports implicate a role for innate-like T cells in modulating the immune response, the roles and extent to which these cells contribute to early mycobacterial restriction in resisters remain to be delineated. Moreover, alternative mechanisms such as innate-like B1 cell mediated, T cell&#x2013;independent responses
                    <sup>
                        <xref ref-type="bibr" rid="ref-92">92</xref>,
                        <xref ref-type="bibr" rid="ref-93">93</xref>
                    </sup> are yet to be investigated. Such innate responses in resisters might also be directed predominantly against non-protein mycobacterial antigens
                    <sup>
                        <xref ref-type="bibr" rid="ref-94">94</xref>
                    </sup>, possibly circumventing the development of the classic CD4
                    <sup>+</sup> T cell&#x2013;mediated IFN-&#x03b3; response, providing a reasonable explanation for persistent TST/IGRA negativity observed in these individuals. These unconventional immune responses involving IFN-&#x03b3;&#x2013;independent cytokine responses are described next.</p>
            </sec>
            <sec>
                <title>Alternate cytokine-mediated responses</title>
                <p>As discussed earlier, IFN-&#x03b3; responses do not correlate with better protection against 
                    <italic toggle="yes">M. tuberculosis</italic> infections
                    <sup>
                        <xref ref-type="bibr" rid="ref-31">31</xref>
                    </sup>. For example, mice deficient in V(D)J recombination activating protein (RAG) that received bacillus Calmette&#x2013;Gu&#x00e9;rin (BCG)&#x00ad;specific Th17 cells from immunized IFN-&#x03b3;&#x2013;deficient mice had a survival advantage when challenged with 
                    <italic toggle="yes">M. tuberculosis</italic>, levels of which were comparable to that seen with transfer of Th1 cells from IFN-&#x03b3;&#x2013;competent mice
                    <sup>
                        <xref ref-type="bibr" rid="ref-95">95</xref>
                    </sup>. Indeed, circulating levels of IL-17 have been shown to be lower in patients with active TB than in those with LTBI
                    <sup>
                        <xref ref-type="bibr" rid="ref-96">96</xref>
                    </sup>. In a study from Gambia, following whole blood stimulation with 
                    <italic toggle="yes">M. tuberculosis</italic> antigens, Th17, V&#x03b3;9V&#x03b4;2
                    <sup>+</sup>, and CD161
                    <sup>++</sup>V&#x03b1;7.2
                    <sup>+</sup> MAIT cells were analyzed by flow cytometry
                    <sup>
                        <xref ref-type="bibr" rid="ref-97">97</xref>
                    </sup>. The majority of IL-17 was produced by CD26
                    <sup>+</sup>CD4
                    <sup>+</sup> Th17 cells, followed by &#x03b3;&#x03b4; T cells (6.4%) and MAIT cells (5.8%), and IGRA-negative subjects demonstrated significantly higher levels of IL-17A, IL-17F, IL-21, and IL-23 in antigen-stimulated supernatants. In another comparative study analyzing TST-positive and TST-negative subjects, TST-positive individuals showed a downregulation of IL-17, IL-23, and ROR&#x03b3;t (a key transcription factor for Th17 cells) but no difference in Th1 and Th2 cytokines
                    <sup>
                        <xref ref-type="bibr" rid="ref-98">98</xref>
                    </sup>. In agreement with IFN-&#x03b3;&#x2013;independent immune responses observed in the Ugandan cohort
                    <sup>
                        <xref ref-type="bibr" rid="ref-23">23</xref>
                    </sup>, these reports further indicate that IFN-&#x03b3; alone might not be sufficient for the protective immune response and that elevated levels of IFN-&#x03b3; might instead be unfavorable for optimal protection. IFN-&#x03b3;&#x2013;independent immune responses that are in fact IL-17&#x2013;mediated could also be orchestrating the establishment of resistance via IL-17&#x2013;producing innate T cells described previously and need to be extensively investigated.</p>
                <p>Other cytokines, such as the anti-inflammatory cytokine IL-10, are known to mitigate Th1 cell responses and minimize pro-inflammatory effects of TNF and IFN-&#x03b3;. Cambodian pulmonary TB patients who remained anergic to PPD following treatment completion displayed tuberculin antigen-specific T-cell responses
                    <sup>
                        <xref ref-type="bibr" rid="ref-99">99</xref>
                    </sup>. These responses were characterized by the production of IL&#x00ad;10 rather than IFN-&#x03b3;
                    <sup>
                        <xref ref-type="bibr" rid="ref-99">99</xref>
                    </sup>. Another study, in Ghana, found that individuals with the highest association with the IL-10 promoter haplotype had low circulating levels of IL&#x00ad;10 and were more likely to have TB or be TST&#x00ad;positive
                    <sup>
                        <xref ref-type="bibr" rid="ref-100">100</xref>
                    </sup>. In an 
                    <italic toggle="yes">in vitro</italic> study, bioactive 
                    <italic toggle="yes">M. tuberculosis</italic> cell wall fragments induced upon mycobacterial contact with human alveolar lining fluid were shown to prime human macrophages to better control 
                    <italic toggle="yes">M. tuberculosis</italic> infection through an increase of phagosome&#x2013;lysosome fusion events in an IL-10&#x2013;dependent manner
                    <sup>
                        <xref ref-type="bibr" rid="ref-101">101</xref>
                    </sup>. Experimental models that recapitulate the early cytokine response to 
                    <italic toggle="yes">M. tuberculosis</italic> must be developed to identify the roles of IL-10 and other lesser-studied cytokines involved in mycobacterial growth restriction in resisters, providing insights for the potential of cytokine manipulation as a preventive therapeutic strategy.</p>
            </sec>
            <sec>
                <title>Trained immunity and bacillus Calmette&#x2013;Gu&#x00e9;rin revaccination</title>
                <p>Although adaptive immunity is widely accepted to possess immunological memory, recent studies have demonstrated that innate immune cells are able to resist reinfection with the same or an unrelated pathogen via a phenomenon termed &#x201c;trained immunity&#x201d; that is driven by differential gene expression induced by epigenetic modifications
                    <sup>
                        <xref ref-type="bibr" rid="ref-102">102</xref>,
                        <xref ref-type="bibr" rid="ref-103">103</xref>
                    </sup>. Epidemiological studies have further shown that BCG vaccination induces non-specific protection that is effective through early childhood (reviewed in 
                    <xref ref-type="bibr" rid="ref-104">104</xref>). Moreover, it has been postulated that exposure to 
                    <italic toggle="yes">M. tuberculosis</italic> itself is likely to induce trained immunity
                    <sup>
                        <xref ref-type="bibr" rid="ref-104">104</xref>
                    </sup> and that, owing to the presence of environmental mycobacteria in TB-endemic settings, bolstered trained immunity in resisters could likely prevent mycobacterial infection. Upon BCG vaccination, peripheral blood mononuclear cells and isolated NK cells are known to produce increased levels of pro-inflammatory cytokines TNF and IL-1&#x03b2; in response to 
                    <italic toggle="yes">M. tuberculosis</italic> as well as other pathogens such as 
                    <italic toggle="yes">Candida albicans</italic> and 
                    <italic toggle="yes">Staphylococcus aureus</italic>
                    <sup>
                        <xref ref-type="bibr" rid="ref-104">104</xref>
                    </sup>. Importantly, when healthy individuals were vaccinated with BCG or a placebo and subsequently with the live attenuated yellow fever vaccine, a decreased peak yellow fever viremia was observed
                    <sup>
                        <xref ref-type="bibr" rid="ref-105">105</xref>
                    </sup>. This response correlated with increased production of IL-1&#x03b2;
                    <sup>
                        <xref ref-type="bibr" rid="ref-105">105</xref>
                    </sup>. In another study, enhanced mycobacterial growth  restriction was observed upon BCG vaccination in a subset of &#x201c;responder&#x201d; individuals who demonstrated a differential DNA methylation pattern among genes belonging to immune pathways
                    <sup>
                        <xref ref-type="bibr" rid="ref-106">106</xref>
                    </sup>. Furthermore, it was shown that the shift of glucose metabolism toward glycolysis is a fundamental process in trained immunity, inducing key histone modifications and functional changes, emphasizing a regulatory role for metabolism in innate host defense
                    <sup>
                        <xref ref-type="bibr" rid="ref-107">107</xref>
                    </sup>. Metabolic inhibition was shown to reverse epigenetic changes in human monocytes in an 
                    <italic toggle="yes">in vitro</italic> model, characterized by decreased cytokine responses upon re-stimulation with microbial and metabolic stimuli
                    <sup>
                        <xref ref-type="bibr" rid="ref-104">104</xref>,
                        <xref ref-type="bibr" rid="ref-108">108</xref>
                    </sup>. Moreover, with parabiotic and chimeric mice intravenously vaccinated with BCG, BCG-educated hematopoetic stem cells were shown to generate epigenetically modified macrophages that provided enhanced protection against 
                    <italic toggle="yes">M. tuberculosis</italic> infection when compared with na&#x00ef;ve macrophages
                    <sup>
                        <xref ref-type="bibr" rid="ref-102">102</xref>
                    </sup>. Such findings further point toward a potential therapeutic strategy that involves boosting such non-specific immunity to prevent 
                    <italic toggle="yes">M. tuberculosis</italic> infection. In a phase 2 randomized trial in South Africa, 990 QuantiferonTB Gold (QFT)-negative and HIV-negative adolescents who had undergone neonatal BCG vaccination received the H4:IC31 subunit vaccine, BCG revaccination, or placebo
                    <sup>
                        <xref ref-type="bibr" rid="ref-109">109</xref>
                    </sup>. The BCG vaccine reduced the rate of sustained QFT conversion with an efficacy of 45.4% (
                    <italic toggle="yes">P</italic> = 0.03) while the efficacy of the H4:IC31 vaccine was 30.5% (
                    <italic toggle="yes">P</italic> = 0.16)
                    <sup>
                        <xref ref-type="bibr" rid="ref-109">109</xref>
                    </sup>. Although it is unknown whether such findings hold true in other geographical settings, they do support a role for BCG revaccination and novel subunit candidate vaccines in inducing some level of non-specific protective immunity. Whether BCG revaccination can resuscitate the memory response in individuals to invoke similar protection observed in resisters needs to be systematically elucidated. Moreover, several distinct stable and transient changes are widely known to occur at the level of the epigenome that modulates the transcriptional landscape of immune cells. Unbiased approaches need to be employed to identify open chromatin regions and regulatory elements influencing histone modifications and differential DNA and RNA methylations in resisters, allowing the identification of important pathways that subsequently establish mycobacterial resistance.</p>
            </sec>
        </sec>
        <sec>
            <title>Outlook</title>
            <p>The lack of an effective vaccine, poor diagnostics, and treatment management, along with the emergence of drug-resistant forms of 
                <italic toggle="yes">M. tuberculosis</italic>, have sustained the global TB epidemic. Over the past 40 years, only two drugs of new classes have been approved by the US Food and Drug Administration, and pretomanid is the latest to be approved this year
                <sup>
                    <xref ref-type="bibr" rid="ref-110">110</xref>
                </sup>. Although several new drug candidates are in the clinical stages of development
                <sup>
                    <xref ref-type="bibr" rid="ref-111">111</xref>
                </sup>, the identification of pharmacological host targets that empower functional innate immune responses to rapidly restrict 
                <italic toggle="yes">M. tuberculosis</italic> survival, without inducing cytotoxic effects, will provide novel adjuncts to antibiotic therapy. When classified using stringent criteria, infection resisters could represent about 5 to 15% of individuals among a given TB-endemic region and are invaluable targets for future research to decipher protective natural immunity. Inducing the right innate immune milieu that is likely present in resisters would enable the early and rapid elimination of 
                <italic toggle="yes">M. tuberculosis</italic>, possibly instituting trained innate immune memory that can be investigated for vaccine strategies.</p>
            <p>Recent observations from experimental analyses and mechanistic studies focused on various stages of initial infection to active TB disease offer crucial insights which are further complemented by large-scale TB-endemic cohort investigations that are aimed at interpreting the heterogeneity of host&#x2013;
                <italic toggle="yes">M. tuberculosis</italic> interactions among resisters and infection-susceptible individuals. We have also discussed additional effector mechanisms that may be contributing to natural resistance, summarized in 
                <xref ref-type="fig" rid="f1">Figure 1</xref>. Emerging evidence further proposes that 
                <italic toggle="yes">M. tuberculosis</italic> strains from various lineages evoke heterogeneic immune responses, associating with greater severity of disease and enhanced transmission
                <sup>
                    <xref ref-type="bibr" rid="ref-112">112</xref>&#x2013;
                    <xref ref-type="bibr" rid="ref-114">114</xref>
                </sup>. Recently, our group reported that the transmissibility of strains belonging to the same lineage depends on their interaction with the host immune system leading to different trajectories in bacterial growth and in the development of disease pathology in the C3HeB/FeJ mouse model
                <sup>
                    <xref ref-type="bibr" rid="ref-115">115</xref>
                </sup>. This indicates that the role of immune variation in the host and the pathogen strain variation together may contribute to the infection-resistant and -susceptible phenotype in individuals exposed to 
                <italic toggle="yes">M. tuberculosis</italic>. This is an area that awaits further investigation.</p>
            <fig fig-type="figure" id="f1" orientation="portrait" position="float">
                <label>Figure 1. </label>
                <caption>
                    <title>Overview of potential mechanisms and pathways contributing to the infection-resistant phenotype.</title>
                    <p>Following exposure and infection of the airways and lung parenchyma with 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic>, infection resisters may engage all or a combination of the following mechanisms and pathways to resist infection or rapidly clear infection: (1) airway epithelium defenses: secretion of soluble factors and anti-microbial peptides by airway epithelial cells; (2) macrophage-mediated 
                        <italic toggle="yes">M. tuberculosis</italic> growth restriction: programmed cell death or autophagy (or both) of lung-resident and recruited alveolar macrophages leading to intracellular restriction of 
                        <italic toggle="yes">M. tuberculosis</italic>; (3) innate lymphoid cells (ILCs): production of rapid and effective anti-mycobacterial responses by innate cell populations, including ILCs, mucosal-associated invariant T (MAIT) cells, natural killer (NK) cells, and innate B cells; (4) innate cytokine response: induction of cytokines that directly or indirectly control 
                        <italic toggle="yes">M. tuberculosis</italic> growth in macrophages; (5) trained immunity: molecular reprogramming of monocytes/macrophages leading to enhanced anti-mycobacterial responses; (6) humoral immunity: contribution of differentially glycosylated antibodies in restricting intracellular 
                        <italic toggle="yes">M. tuberculosis</italic>.</p>
                </caption>
                <graphic orientation="portrait" position="float" xlink:href="https://f1000research-files.f1000.com/manuscripts/21726/653ed02e-4989-4a76-89f4-3425b3eaf2a6_figure1.gif"/>
            </fig>
        </sec>
    </body>
    <back>
        <ref-list>
            <ref id="ref-1">
                <label>1</label>
                <mixed-citation publication-type="journal">
                    <collab>World Health Organization: </collab>
                    <article-title>Global tuberculosis report 2018</article-title>.
                    <ext-link ext-link-type="uri" xlink:href="https://apps.who.int/iris/bitstream/handle/10665/274453/9789241565646-eng.pdf?ua=1">Reference Source</ext-link>
                </mixed-citation>
            </ref>
            <ref id="ref-2">
                <label>2</label>
                <mixed-citation publication-type="journal">
                    <collab>Centers for Disease Control and Prevention: </collab>
                    <article-title>TB testing and diagnosis</article-title>.
                    <ext-link ext-link-type="uri" xlink:href="https://www.cdc.gov/tb/topic/testing/tbtesttypes.htm">Reference Source</ext-link>
                </mixed-citation>
            </ref>
            <ref id="ref-3">
                <label>3</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Raviglione</surname>
                            <given-names>M</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Sulis</surname>
                            <given-names>G</given-names>
                        </name>
</person-group>:
                    <article-title>Tuberculosis 2015: Burden, Challenges and Strategy for Control and Elimination.</article-title>
                    <source>

                        <italic toggle="yes">Infect Dis Rep.</italic>
</source>
                    <year>2016</year>;<volume>8</volume>(<issue>2</issue>):<fpage>6570</fpage>.
                    <pub-id pub-id-type="pmid">27403269</pub-id>
                    <pub-id pub-id-type="doi">10.4081/idr.2016.6570</pub-id>
                    <pub-id pub-id-type="pmcid">4927938</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-4">
                <label>4</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Simmons</surname>
                            <given-names>JD</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Stein</surname>
                            <given-names>CM</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Seshadri</surname>
                            <given-names>C</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Immunological mechanisms of human resistance to persistent 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> infection.</article-title>
                    <source>

                        <italic toggle="yes">Nat Rev Immunol.</italic>
</source>
                    <year>2018</year>;<volume>18</volume>(<issue>9</issue>):<fpage>575</fpage>&#x2013;<lpage>89</lpage>.
                    <pub-id pub-id-type="pmid">29895826</pub-id>
                    <pub-id pub-id-type="doi">10.1038/s41577-018-0025-3</pub-id>
                    <pub-id pub-id-type="pmcid">6278832</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-5">
                <label>5</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>O'Garra</surname>
                            <given-names>A</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Redford</surname>
                            <given-names>PS</given-names>
                        </name>

                        <name name-style="western">
                            <surname>McNab</surname>
                            <given-names>FW</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>The immune response in tuberculosis.</article-title>
                    <source>

                        <italic toggle="yes">Annu Rev Immunol.</italic>
</source>
                    <year>2013</year>;<volume>31</volume>:<fpage>475</fpage>&#x2013;<lpage>527</lpage>.
                    <pub-id pub-id-type="pmid">23516984</pub-id>
                    <pub-id pub-id-type="doi">10.1146/annurev-immunol-032712-095939</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-6">
                <label>6</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Marimani</surname>
                            <given-names>M</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Ahmad</surname>
                            <given-names>A</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Duse</surname>
                            <given-names>A</given-names>
                        </name>
</person-group>:
                    <article-title>The role of epigenetics, bacterial and host factors in progression of 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> infection.</article-title>
                    <source>

                        <italic toggle="yes">Tuberculosis (Edinb).</italic>
</source>
                    <year>2018</year>;<volume>113</volume>:<fpage>200</fpage>&#x2013;<lpage>14</lpage>.
                    <pub-id pub-id-type="pmid">30514504</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.tube.2018.10.009</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-7">
                <label>7</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Stein</surname>
                            <given-names>CM</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Zalwango</surname>
                            <given-names>S</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Malone</surname>
                            <given-names>LL</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Resistance and Susceptibility to 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> Infection and Disease in Tuberculosis Households in Kampala, Uganda.</article-title>
                    <source>

                        <italic toggle="yes">Am J Epidemiol.</italic>
</source>
                    <year>2018</year>;<volume>187</volume>(<issue>7</issue>):<fpage>1477</fpage>&#x2013;<lpage>89</lpage>.
                    <pub-id pub-id-type="pmid">29304247</pub-id>
                    <pub-id pub-id-type="doi">10.1093/aje/kwx380</pub-id>
                    <pub-id pub-id-type="pmcid">6031055</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/732403348">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-8">
                <label>8</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Badger</surname>
                            <given-names>TL</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Spink</surname>
                            <given-names>WW</given-names>
                        </name>
</person-group>:
                    <article-title>First-Infection Type of Tuberculosis in Adults.</article-title>
                    <source>

                        <italic toggle="yes">N Engl J Med.</italic>
</source>
                    <year>1937</year>;<volume>217</volume>:<fpage>424</fpage>&#x2013;<lpage>31</lpage>.
                    <pub-id pub-id-type="doi">10.1056/NEJM193709092171102</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-9">
                <label>9</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Dickie</surname>
                            <given-names>HA</given-names>
                        </name>
</person-group>:
                    <article-title>Tuberculosis in student nurses and medical students at the University of Wisconsin.</article-title>
                    <source>

                        <italic toggle="yes">Ann Intern Med.</italic>
</source>
                    <year>1950</year>;<volume>33</volume>(<issue>4</issue>):<fpage>941</fpage>&#x2013;<lpage>59</lpage>.
                    <pub-id pub-id-type="pmid">14771762</pub-id>
                    <pub-id pub-id-type="doi">10.7326/0003-4819-33-4-941</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-10">
                <label>10</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Myers</surname>
                            <given-names>JA</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Boynton</surname>
                            <given-names>RE</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Diehl</surname>
                            <given-names>HS</given-names>
                        </name>
</person-group>:
                    <article-title>Prevention of Tuberculosis among Students of Nursing.</article-title>
                    <source>

                        <italic toggle="yes">Am J Nurs.</italic>
</source>
                    <year>1947</year>;<volume>47</volume>(<issue>10</issue>):<fpage>661</fpage>&#x2013;<lpage>666</lpage>.
                    <pub-id pub-id-type="doi">10.2307/3457892</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-11">
                <label>11</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Houk</surname>
                            <given-names>VN</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Baker</surname>
                            <given-names>JH</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Sorensen</surname>
                            <given-names>K</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>The epidemiology of tuberculosis infection in a closed environment.</article-title>
                    <source>

                        <italic toggle="yes">Arch Environ Health.</italic>
</source>
                    <year>1968</year>;<volume>16</volume>(<issue>1</issue>):<fpage>26</fpage>&#x2013;<lpage>35</lpage>.
                    <pub-id pub-id-type="pmid">5638222</pub-id>
                    <pub-id pub-id-type="doi">10.1080/00039896.1968.10665011</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-12">
                <label>12</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Flynn</surname>
                            <given-names>JL</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Chan</surname>
                            <given-names>J</given-names>
                        </name>
</person-group>:
                    <article-title>Immune evasion by 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic>: living with the enemy.</article-title>
                    <source>

                        <italic toggle="yes">Curr Opin Immunol.</italic>
</source>
                    <year>2003</year>;<volume>15</volume>(<issue>4</issue>):<fpage>450</fpage>&#x2013;<lpage>5</lpage>.
                    <pub-id pub-id-type="pmid">12900278</pub-id>
                    <pub-id pub-id-type="doi">10.1016/s0952-7915(03)00075-x</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-13">
                <label>13</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Sia</surname>
                            <given-names>JK</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Georgieva</surname>
                            <given-names>M</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Rengarajan</surname>
                            <given-names>J</given-names>
                        </name>
</person-group>:
                    <article-title>Innate Immune Defenses in Human Tuberculosis: An Overview of the Interactions between 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> and Innate Immune Cells.</article-title>
                    <source>

                        <italic toggle="yes">J Immunol Res.</italic>
</source>
                    <year>2015</year>;<volume>2015</volume>:<fpage>747543</fpage>.
                    <pub-id pub-id-type="pmid">26258152</pub-id>
                    <pub-id pub-id-type="doi">10.1155/2015/747543</pub-id>
                    <pub-id pub-id-type="pmcid">4516846</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-14">
                <label>14</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Cohen</surname>
                            <given-names>SB</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Gern</surname>
                            <given-names>BH</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Delahaye</surname>
                            <given-names>JL</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Alveolar Macrophages Provide an Early 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> Niche and Initiate Dissemination.</article-title>
                    <source>

                        <italic toggle="yes">Cell Host Microbe.</italic>
</source>
                    <year>2018</year>;<volume>24</volume>(<issue>3</issue>):<fpage>439</fpage>&#x2013;<lpage>446.e4</lpage>.
                    <pub-id pub-id-type="pmid">30146391</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.chom.2018.08.001</pub-id>
                    <pub-id pub-id-type="pmcid">6152889</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/733872468">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-15">
                <label>15</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Bhatt</surname>
                            <given-names>K</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Verma</surname>
                            <given-names>S</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Ellner</surname>
                            <given-names>JJ</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Quest for correlates of protection against tuberculosis.</article-title>
                    <source>

                        <italic toggle="yes">Clin Vaccine Immunol.</italic>
</source>
                    <year>2015</year>;<volume>22</volume>(<issue>3</issue>):<fpage>258</fpage>&#x2013;<lpage>66</lpage>.
                    <pub-id pub-id-type="pmid">25589549</pub-id>
                    <pub-id pub-id-type="doi">10.1128/CVI.00721-14</pub-id>
                    <pub-id pub-id-type="pmcid">4340894</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-16">
                <label>16</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Behar</surname>
                            <given-names>SM</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Martin</surname>
                            <given-names>CJ</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Booty</surname>
                            <given-names>MG</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Apoptosis is an innate defense function of macrophages against 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic>.</article-title>
                    <source>

                        <italic toggle="yes">Mucosal Immunol.</italic>
</source>
                    <year>2011</year>;<volume>4</volume>(<issue>3</issue>):<fpage>279</fpage>&#x2013;<lpage>87</lpage>.
                    <pub-id pub-id-type="pmid">21307848</pub-id>
                    <pub-id pub-id-type="doi">10.1038/mi.2011.3</pub-id>
                    <pub-id pub-id-type="pmcid">3155700</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-17">
                <label>17</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Fratazzi</surname>
                            <given-names>C</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Arbeit</surname>
                            <given-names>RD</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Carini</surname>
                            <given-names>C</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Macrophage apoptosis in mycobacterial infections.</article-title>
                    <source>

                        <italic toggle="yes">J Leukoc Biol.</italic>
</source>
                    <year>1999</year>;<volume>66</volume>(<issue>5</issue>):<fpage>763</fpage>&#x2013;<lpage>4</lpage>.
                    <pub-id pub-id-type="pmid">10577507</pub-id>
                    <pub-id pub-id-type="doi">10.1002/jlb.66.5.763</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-18">
                <label>18</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Dietzold</surname>
                            <given-names>J</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Gopalakrishnan</surname>
                            <given-names>A</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Salgame</surname>
                            <given-names>P</given-names>
                        </name>
</person-group>:
                    <article-title>Duality of lipid mediators in host response against 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic>: good cop, bad cop.</article-title>
                    <source>

                        <italic toggle="yes">F1000Prime Rep.</italic>
</source>
                    <year>2015</year>;<volume>7</volume>:<fpage>29</fpage>.
                    <pub-id pub-id-type="pmid">25926980</pub-id>
                    <pub-id pub-id-type="doi">10.12703/P7-29</pub-id>
                    <pub-id pub-id-type="pmcid">4371237</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-19">
                <label>19</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Mazzurana</surname>
                            <given-names>L</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Rao</surname>
                            <given-names>A</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Van Acker</surname>
                            <given-names>A</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>The roles for innate lymphoid cells in the human immune system.</article-title>
                    <source>

                        <italic toggle="yes">Semin Immunopathol.</italic>
</source>
                    <year>2018</year>;<volume>40</volume>(<issue>4</issue>):<fpage>407</fpage>&#x2013;<lpage>19</lpage>.
                    <pub-id pub-id-type="pmid">29948108</pub-id>
                    <pub-id pub-id-type="doi">10.1007/s00281-018-0688-7</pub-id>
                    <pub-id pub-id-type="pmcid">6060849</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-20">
                <label>20</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Lerner</surname>
                            <given-names>TR</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Borel</surname>
                            <given-names>S</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Gutierrez</surname>
                            <given-names>MG</given-names>
                        </name>
</person-group>:
                    <article-title>The innate immune response in human tuberculosis.</article-title>
                    <source>

                        <italic toggle="yes">Cell Microbiol.</italic>
</source>
                    <year>2015</year>;<volume>17</volume>(<issue>9</issue>):<fpage>1277</fpage>&#x2013;<lpage>85</lpage>.
                    <pub-id pub-id-type="pmid">26135005</pub-id>
                    <pub-id pub-id-type="doi">10.1111/cmi.12480</pub-id>
                    <pub-id pub-id-type="pmcid">4832344</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-21">
                <label>21</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Ardain</surname>
                            <given-names>A</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Domingo-Gonzalez</surname>
                            <given-names>R</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Das</surname>
                            <given-names>S</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Group 3 innate lymphoid cells mediate early protective immunity against tuberculosis.</article-title>
                    <source>

                        <italic toggle="yes">Nature.</italic>
</source>
                    <year>2019</year>;<volume>570</volume>(<issue>7762</issue>):<fpage>528</fpage>&#x2013;<lpage>32</lpage>.
                    <pub-id pub-id-type="pmid">31168092</pub-id>
                    <pub-id pub-id-type="doi">10.1038/s41586-019-1276-2</pub-id>
                    <pub-id pub-id-type="pmcid">6626542</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/735907102">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-22">
                <label>22</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Casadevall</surname>
                            <given-names>A</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Pirofski</surname>
                            <given-names>LA</given-names>
                        </name>
</person-group>:
                    <article-title>A reappraisal of humoral immunity based on mechanisms of antibody-mediated protection against intracellular pathogens.</article-title>
                    <source>

                        <italic toggle="yes">Adv Immunol.</italic>
</source>
                    <year>2006</year>;<volume>91</volume>:<fpage>1</fpage>&#x2013;<lpage>44</lpage>.
                    <pub-id pub-id-type="pmid">16938537</pub-id>
                    <pub-id pub-id-type="doi">10.1016/S0065-2776(06)91001-3</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-23">
                <label>23</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Lu</surname>
                            <given-names>LL</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Smith</surname>
                            <given-names>MT</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Yu</surname>
                            <given-names>KKQ</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>IFN-&#x03b3;-independent immune markers of 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> exposure.</article-title>
                    <source>

                        <italic toggle="yes">Nat Med.</italic>
</source>
                    <year>2019</year>;<volume>25</volume>(<issue>6</issue>):<fpage>977</fpage>&#x2013;<lpage>87</lpage>.
                    <pub-id pub-id-type="pmid">31110348</pub-id>
                    <pub-id pub-id-type="doi">10.1038/s41591-019-0441-3</pub-id>
                    <pub-id pub-id-type="pmcid">6559862</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/735795433">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-24">
                <label>24</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Li</surname>
                            <given-names>H</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Wang</surname>
                            <given-names>XX</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Wang</surname>
                            <given-names>B</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Latently and uninfected healthcare workers exposed to TB make protective antibodies against 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic>.</article-title>
                    <source>

                        <italic toggle="yes">Proc Natl Acad Sci U S A.</italic>
</source>
                    <year>2017</year>;<volume>114</volume>(<issue>9</issue>):<fpage>5023</fpage>&#x2013;<lpage>8</lpage>.
                    <pub-id pub-id-type="pmid">28438994</pub-id>
                    <pub-id pub-id-type="doi">10.1073/pnas.1611776114</pub-id>
                    <pub-id pub-id-type="pmcid">5441709</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/727550828">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-25">
                <label>25</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Jacobs</surname>
                            <given-names>AJ</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Mongkolsapaya</surname>
                            <given-names>J</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Screaton</surname>
                            <given-names>GR</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Antibodies and tuberculosis.</article-title>
                    <source>

                        <italic toggle="yes">Tuberculosis (Edinb).</italic>
</source>
                    <year>2016</year>;<volume>101</volume>:<fpage>102</fpage>&#x2013;<lpage>13</lpage>.
                    <pub-id pub-id-type="pmid">27865379</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.tube.2016.08.001</pub-id>
                    <pub-id pub-id-type="pmcid">5120988</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-26">
                <label>26</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Cobat</surname>
                            <given-names>A</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Gallant</surname>
                            <given-names>CJ</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Simkin</surname>
                            <given-names>L</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Two loci control tuberculin skin test reactivity in an area hyperendemic for tuberculosis.</article-title>
                    <source>

                        <italic toggle="yes">J Exp Med.</italic>
</source>
                    <year>2009</year>;<volume>206</volume>(<issue>12</issue>):<fpage>2583</fpage>&#x2013;<lpage>91</lpage>.
                    <pub-id pub-id-type="pmid">19901083</pub-id>
                    <pub-id pub-id-type="doi">10.1084/jem.20090892</pub-id>
                    <pub-id pub-id-type="pmcid">2806605</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-27">
                <label>27</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Shah</surname>
                            <given-names>JA</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Musvosvi</surname>
                            <given-names>M</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Shey</surname>
                            <given-names>M</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>A Functional Toll-Interacting Protein Variant Is Associated with Bacillus Calmette-Gu&#x00e9;rin&#x2013;Specific Immune Responses and Tuberculosis.</article-title>
                    <source>

                        <italic toggle="yes">Am J Respir Crit Care Med.</italic>
</source>
                    <year>2017</year>;<volume>196</volume>(<issue>4</issue>):<fpage>502</fpage>&#x2013;<lpage>11</lpage>.
                    <pub-id pub-id-type="pmid">28463648</pub-id>
                    <pub-id pub-id-type="doi">10.1164/rccm.201611-2346OC</pub-id>
                    <pub-id pub-id-type="pmcid">5564674</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/727577848">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-28">
                <label>28</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Coscolla</surname>
                            <given-names>M</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Gagneux</surname>
                            <given-names>S</given-names>
                        </name>
</person-group>:
                    <article-title>Consequences of genomic diversity in 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic>.</article-title>
                    <source>

                        <italic toggle="yes">Semin Immunol.</italic>
</source>
                    <year>2014</year>;<volume>26</volume>(<issue>6</issue>):<fpage>431</fpage>&#x2013;<lpage>44</lpage>.
                    <pub-id pub-id-type="pmid">25453224</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.smim.2014.09.012</pub-id>
                    <pub-id pub-id-type="pmcid">4314449</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-29">
                <label>29</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Tientcheu</surname>
                            <given-names>LD</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Koch</surname>
                            <given-names>A</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Ndengane</surname>
                            <given-names>M</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Immunological consequences of strain variation within the 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> complex.</article-title>
                    <source>

                        <italic toggle="yes">Eur J Immunol.</italic>
</source>
                    <year>2017</year>;<volume>47</volume>(<issue>3</issue>):<fpage>432</fpage>&#x2013;<lpage>45</lpage>.
                    <pub-id pub-id-type="pmid">28150302</pub-id>
                    <pub-id pub-id-type="doi">10.1002/eji.201646562</pub-id>
                    <pub-id pub-id-type="pmcid">5363233</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/727261784">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-30">
                <label>30</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Filipe-Santos</surname>
                            <given-names>O</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Bustamante</surname>
                            <given-names>J</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Chapgier</surname>
                            <given-names>A</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Inborn errors of IL-12/23- and IFN-gamma-mediated immunity: molecular, cellular, and clinical features.</article-title>
                    <source>

                        <italic toggle="yes">Semin Immunol.</italic>
</source>
                    <year>2006</year>;<volume>18</volume>(<issue>6</issue>):<fpage>347</fpage>&#x2013;<lpage>61</lpage>.
                    <pub-id pub-id-type="pmid">16997570</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.smim.2006.07.010</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-31">
                <label>31</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Tameris</surname>
                            <given-names>MD</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Hatherill</surname>
                            <given-names>M</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Landry</surname>
                            <given-names>BS</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Safety and efficacy of MVA85A, a new tuberculosis vaccine, in infants previously vaccinated with BCG: a randomised, placebo-controlled phase 2b trial.</article-title>
                    <source>

                        <italic toggle="yes">Lancet.</italic>
</source>
                    <year>2013</year>;<volume>381</volume>(<issue>9871</issue>):<fpage>1021</fpage>&#x2013;<lpage>8</lpage>.
                    <pub-id pub-id-type="pmid">23391465</pub-id>
                    <pub-id pub-id-type="doi">10.1016/S0140-6736(13)60177-4</pub-id>
                    <pub-id pub-id-type="pmcid">5424647</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/717977114">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-32">
                <label>32</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Seshadri</surname>
                            <given-names>C</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Sedaghat</surname>
                            <given-names>N</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Campo</surname>
                            <given-names>M</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Transcriptional networks are associated with resistance to 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> infection.</article-title>
                    <source>

                        <italic toggle="yes">PLoS One.</italic>	
</source>
                    <year>2017</year>;<volume>12</volume>(<issue>4</issue>):<fpage>e0175844</fpage>.
                    <pub-id pub-id-type="pmid">28414762</pub-id>
                    <pub-id pub-id-type="doi">10.1371/journal.pone.0175844</pub-id>
                    <pub-id pub-id-type="pmcid">5393882</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/727513089">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-33">
                <label>33</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Vorkas</surname>
                            <given-names>CK</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Wipperman</surname>
                            <given-names>MF</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Li</surname>
                            <given-names>K</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Mucosal-associated invariant and &#x03b3;&#x03b4; T cell subsets respond to initial 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> infection.</article-title>
                    <source>

                        <italic toggle="yes">JCI Insight.</italic>
</source>
                    <year>2018</year>;<volume>3</volume>(<issue>19</issue>): pii: 121899.
                    <pub-id pub-id-type="pmid">30282828</pub-id>
                    <pub-id pub-id-type="doi">10.1172/jci.insight.121899</pub-id>
                    <pub-id pub-id-type="pmcid">6237486</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/734156115">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-34">
                <label>34</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Verrall</surname>
                            <given-names>AJ</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Schneider</surname>
                            <given-names>M</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Alisjahbana</surname>
                            <given-names>B</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Early clearance of 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> is associated with increased innate immune responses.</article-title>
                    <source>

                        <italic toggle="yes">J Infect Dis.</italic>
</source>
                    <year>2019</year>; pii: jiz147.
                    <pub-id pub-id-type="pmid">30958547</pub-id>
                    <pub-id pub-id-type="doi">10.1093/infdis/jiz147</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/735506178">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-35">
                <label>35</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Whitsett</surname>
                            <given-names>JA</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Alenghat</surname>
                            <given-names>T</given-names>
                        </name>
</person-group>:
                    <article-title>Respiratory epithelial cells orchestrate pulmonary innate immunity.</article-title>
                    <source>

                        <italic toggle="yes">Nat Immunol.</italic>
</source>
                    <year>2015</year>;<volume>16</volume>(<issue>1</issue>):<fpage>27</fpage>&#x2013;<lpage>35</lpage>.
                    <pub-id pub-id-type="pmid">25521682</pub-id>
                    <pub-id pub-id-type="doi">10.1038/ni.3045</pub-id>
                    <pub-id pub-id-type="pmcid">4318521</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-36">
                <label>36</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Schaefer</surname>
                            <given-names>L</given-names>
                        </name>
</person-group>:
                    <article-title>Complexity of danger: the diverse nature of damage-associated molecular patterns.</article-title>
                    <source>

                        <italic toggle="yes">J Biol Chem.</italic>
</source>
                    <year>2014</year>;<volume>289</volume>(<issue>51</issue>):<fpage>35237</fpage>&#x2013;<lpage>45</lpage>.
                    <pub-id pub-id-type="pmid">25391648</pub-id>
                    <pub-id pub-id-type="doi">10.1074/jbc.R114.619304</pub-id>
                    <pub-id pub-id-type="pmcid">4271212</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-37">
                <label>37</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Gupta</surname>
                            <given-names>N</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Kumar</surname>
                            <given-names>R</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Agrawal</surname>
                            <given-names>B</given-names>
                        </name>
</person-group>:
                    <article-title>New Players in Immunity to Tuberculosis: The Host Microbiome, Lung Epithelium, and Innate Immune Cells.</article-title>
                    <source>

                        <italic toggle="yes">Front Immunol.</italic>
</source>
                    <year>2018</year>;<volume>9</volume>:<fpage>709</fpage>.
                    <pub-id pub-id-type="pmid">29692778</pub-id>
                    <pub-id pub-id-type="doi">10.3389/fimmu.2018.00709</pub-id>
                    <pub-id pub-id-type="pmcid">5902499</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-38">
                <label>38</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Wosen</surname>
                            <given-names>JE</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Mukhopadhyay</surname>
                            <given-names>D</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Macaubas</surname>
                            <given-names>C</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title>Epithelial MHC Class II Expression and Its Role in Antigen Presentation in the Gastrointestinal and Respiratory Tracts.</article-title>
                    <source>

                        <italic toggle="yes">Front Immunol.</italic>
</source>
                    <year>2018</year>;<volume>9</volume>:<fpage>2144</fpage>.
                    <pub-id pub-id-type="pmid">30319613</pub-id>
                    <pub-id pub-id-type="doi">10.3389/fimmu.2018.02144</pub-id>
                    <pub-id pub-id-type="pmcid">6167424</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-39">
                <label>39</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Dobos</surname>
                            <given-names>KM</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Spotts</surname>
                            <given-names>EA</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Quinn</surname>
                            <given-names>FD</given-names>
                        </name>

                        <etal/>
</person-group>:
                    <article-title> Necrosis of lung epithelial cells during infection with 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> is preceded by cell permeation.</article-title>
                    <source>

                        <italic toggle="yes">Infect Immun.</italic>
</source>
                    <year>2000</year>;<volume>68</volume>(<issue>11</issue>):<fpage>6300</fpage>&#x2013;<lpage>10</lpage>.
                    <pub-id pub-id-type="pmid">11035739</pub-id>
                    <pub-id pub-id-type="doi">10.1128/iai.68.11.6300-6310.2000</pub-id>
                    <pub-id pub-id-type="pmcid">97713</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-40">
                <label>40</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">

                        <name name-style="western">
                            <surname>Scordo</surname>
                            <given-names>JM</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Knoell</surname>
                            <given-names>DL</given-names>
                        </name>

                        <name name-style="western">
                            <surname>Torrelles</surname>
                            <given-names>JB</given-names>
                        </name>
</person-group>:
                    <article-title>Alveolar Epithelial Cells in 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> Infection: Active Players or Innocent Bystanders?</article-title>
                    <source>

                        <italic toggle="yes">J Innate Immun.</italic>
</source>
                    <year>2016</year>;<volume>8</volume>(<issue>1</issue>):<fpage>3</fpage>&#x2013;<lpage>14</lpage>.
                    <pub-id pub-id-type="pmid">26384325</pub-id>
                    <pub-id pub-id-type="doi">10.1159/000439275</pub-id>
                    <pub-id pub-id-type="pmcid">4724319</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-41">
                <label>41</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Leiva-Ju&#x00e1;rez</surname>
                            <given-names>MM</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Kolls</surname>
                            <given-names>JK</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Evans</surname>
                            <given-names>SE</given-names>
                        </name>
		</person-group>:
                    <article-title>Lung epithelial cells: therapeutically inducible effectors of antimicrobial defense.</article-title>
                    <source>
			
                        <italic toggle="yes">Mucosal Immunol.</italic>
		</source>
                    <year>2018</year>;<volume>11</volume>(<issue>1</issue>):<fpage>21</fpage>&#x2013;<lpage>34</lpage>.
                    <pub-id pub-id-type="pmid">28812547</pub-id>
                    <pub-id pub-id-type="doi">10.1038/mi.2017.71</pub-id>
                    <pub-id pub-id-type="pmcid">5738267</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-42">
                <label>42</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Lai</surname>
                            <given-names>Y</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Gallo</surname>
                            <given-names>RL</given-names>
                        </name>
		</person-group>:
                    <article-title>AMPed up immunity: how antimicrobial peptides have multiple roles in immune defense.</article-title>
                    <source>
			
                        <italic toggle="yes">Trends Immunol.</italic>
		</source>
                    <year>2009</year>;<volume>30</volume>(<issue>3</issue>):<fpage>131</fpage>&#x2013;<lpage>41</lpage>.
                    <pub-id pub-id-type="pmid">19217824</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.it.2008.12.003</pub-id>
                    <pub-id pub-id-type="pmcid">2765035</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-43">
                <label>43</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Wang</surname>
                            <given-names>JY</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Reid</surname>
                            <given-names>KB</given-names>
                        </name>
		</person-group>:
                    <article-title>The immunoregulatory roles of lung surfactant collectins SP-A, and SP-D, in allergen-induced airway inflammation.</article-title>
                    <source>
			
                        <italic toggle="yes">Immunobiology.</italic>
		</source>
                    <year>2007</year>;<volume>212</volume>(<issue>4&#x2013;5</issue>):<fpage>417</fpage>&#x2013;<lpage>25</lpage>.
                    <pub-id pub-id-type="pmid">17544824</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.imbio.2007.01.002</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-44">
                <label>44</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Torrelles</surname>
                            <given-names>JB</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Azad</surname>
                            <given-names>AK</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Henning</surname>
                            <given-names>LN</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Role of C-type lectins in mycobacterial infections.</article-title>
                    <source>
			
                        <italic toggle="yes">Curr Drug Targets.</italic>
		</source>
                    <year>2008</year>;<volume>9</volume>(<issue>2</issue>):<fpage>102</fpage>&#x2013;<lpage>12</lpage>.
                    <pub-id pub-id-type="pmid">18288961</pub-id>
                    <pub-id pub-id-type="doi">10.2174/138945008783502467</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-45">
                <label>45</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Hsieh</surname>
                            <given-names>MH</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Ou</surname>
                            <given-names>CY</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Hsieh</surname>
                            <given-names>WY</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Functional Analysis of Genetic Variations in Surfactant Protein D in Mycobacterial Infection and Their Association With Tuberculosis.</article-title>
                    <source>
			
                        <italic toggle="yes">Front Immunol.</italic>
		</source>
                    <year>2018</year>;<volume>9</volume>:<fpage>1543</fpage>.
                    <pub-id pub-id-type="pmid">30013576</pub-id>
                    <pub-id pub-id-type="doi">10.3389/fimmu.2018.01543</pub-id>
                    <pub-id pub-id-type="pmcid">6036787</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/733651759">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-46">
                <label>46</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Pace</surname>
                            <given-names>E</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Ferraro</surname>
                            <given-names>M</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Minervini</surname>
                            <given-names>MI</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Beta defensin-2 is reduced in central but not in distal airways of smoker COPD patients.</article-title>
                    <source>
			
                        <italic toggle="yes">PLoS One.</italic>
		</source>
                    <year>2012</year>;<volume>7</volume>(<issue>3</issue>):<fpage>e33601</fpage>.
                    <pub-id pub-id-type="pmid">22438960</pub-id>
                    <pub-id pub-id-type="doi">10.1371/journal.pone.0033601</pub-id>
                    <pub-id pub-id-type="pmcid">3306426</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-47">
                <label>47</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Boutet</surname>
                            <given-names>MA</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Bart</surname>
                            <given-names>G</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Penhoat</surname>
                            <given-names>M</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Distinct expression of interleukin (IL)-36&#x03b1;, &#x03b2; and &#x03b3;, their antagonist IL-36Ra and IL-38 in psoriasis, rheumatoid arthritis and Crohn's disease.</article-title>
                    <source>
			
                        <italic toggle="yes">Clin Exp Immunol.</italic>
		</source>
                    <year>2016</year>;<volume>184</volume>(<issue>2</issue>):<fpage>159</fpage>&#x2013;<lpage>73</lpage>.
                    <pub-id pub-id-type="pmid">26701127</pub-id>
                    <pub-id pub-id-type="doi">10.1111/cei.12761</pub-id>
                    <pub-id pub-id-type="pmcid">4837235</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-48">
                <label>48</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Korting</surname>
                            <given-names>HC</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Sch&#x00f6;llmann</surname>
                            <given-names>C</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Stauss-Grabo</surname>
                            <given-names>M</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Antimicrobial peptides and skin: a paradigm of translational medicine.</article-title>
                    <source>
			
                        <italic toggle="yes">Skin Pharmacol Physiol.</italic>
		</source>
                    <year>2012</year>;<volume>25</volume>(<issue>6</issue>):<fpage>323</fpage>&#x2013;<lpage>34</lpage>.
                    <pub-id pub-id-type="pmid">22964878</pub-id>
                    <pub-id pub-id-type="doi">10.1159/000341990</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-49">
                <label>49</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Harder</surname>
                            <given-names>J</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Dressel</surname>
                            <given-names>S</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Wittersheim</surname>
                            <given-names>M</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Enhanced expression and secretion of antimicrobial peptides in atopic dermatitis and after superficial skin injury.</article-title>
                    <source>
			
                        <italic toggle="yes">J Invest Dermatol.</italic>
		</source>
                    <year>2010</year>;<volume>130</volume>(<issue>5</issue>):<fpage>1355</fpage>&#x2013;<lpage>64</lpage>.
                    <pub-id pub-id-type="pmid">20107483</pub-id>
                    <pub-id pub-id-type="doi">10.1038/jid.2009.432</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-50">
                <label>50</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Abedinzadeh</surname>
                            <given-names>M</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Gaeini</surname>
                            <given-names>M</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Sardari</surname>
                            <given-names>S</given-names>
                        </name>
		</person-group>:
                    <article-title>Natural antimicrobial peptides against 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic>.</article-title>
                    <source>
			
                        <italic toggle="yes">J Antimicrob Chemother.</italic>
		</source>
                    <year>2015</year>;<volume>70</volume>(<issue>5</issue>):<fpage>1285</fpage>&#x2013;<lpage>9</lpage>.
                    <pub-id pub-id-type="pmid">25681127</pub-id>
                    <pub-id pub-id-type="doi">10.1093/jac/dku570</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-51">
                <label>51</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Arranz-Trull&#x00e9;n</surname>
                            <given-names>J</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Lu</surname>
                            <given-names>L</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Pulido</surname>
                            <given-names>D</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Host Antimicrobial Peptides: The Promise of New Treatment Strategies against Tuberculosis.</article-title>
                    <source>
			
                        <italic toggle="yes">Front Immunol.</italic>
		</source>
                    <year>2017</year>;<volume>8</volume>:<fpage>1499</fpage>.
                    <pub-id pub-id-type="pmid">29163551</pub-id>
                    <pub-id pub-id-type="doi">10.3389/fimmu.2017.01499</pub-id>
                    <pub-id pub-id-type="pmcid">5681943</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-52">
                <label>52</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Kumar</surname>
                            <given-names>NP</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Moideen</surname>
                            <given-names>K</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Viswanathan</surname>
                            <given-names>V</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Heightened circulating levels of antimicrobial peptides in tuberculosis-Diabetes co-morbidity and reversal upon treatment.</article-title>
                    <source>
			
                        <italic toggle="yes">PLoS One.</italic>
		</source>
                    <year>2017</year>;<volume>12</volume>(<issue>9</issue>):<fpage>e0184753</fpage>.
                    <pub-id pub-id-type="pmid">28910369</pub-id>
                    <pub-id pub-id-type="doi">10.1371/journal.pone.0184753</pub-id>
                    <pub-id pub-id-type="pmcid">5599016</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/731181284">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-53">
                <label>53</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Archer</surname>
                            <given-names>NK</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Adappa</surname>
                            <given-names>ND</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Palmer</surname>
                            <given-names>JN</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Interleukin-17A (IL-17A) and IL-17F Are Critical for Antimicrobial Peptide Production and Clearance of 
                        <italic toggle="yes">Staphylococcus aureus</italic> Nasal Colonization.</article-title>
                    <source>
			
                        <italic toggle="yes">Infect Immun.</italic>
		</source>
                    <year>2016</year>;<volume>84</volume>(<issue>12</issue>):<fpage>3575</fpage>&#x2013;<lpage>83</lpage>.
                    <pub-id pub-id-type="pmid">27736775</pub-id>
                    <pub-id pub-id-type="doi">10.1128/IAI.00596-16</pub-id>
                    <pub-id pub-id-type="pmcid">5116734</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-54">
                <label>54</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Ngo</surname>
                            <given-names>VL</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Abo</surname>
                            <given-names>H</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Maxim</surname>
                            <given-names>E</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>A cytokine network involving IL-36&#x03b3;, IL-23, and IL-22 promotes antimicrobial defense and recovery from intestinal barrier damage.</article-title>
                    <source>
			
                        <italic toggle="yes">Proc Natl Acad Sci U S A.</italic>
		</source>
                    <year>2018</year>;<volume>115</volume>(<issue>22</issue>):<fpage>E5076</fpage>&#x2013;<lpage>E5085</lpage>.
                    <pub-id pub-id-type="pmid">29760082</pub-id>
                    <pub-id pub-id-type="doi">10.1073/pnas.1718902115</pub-id>
                    <pub-id pub-id-type="pmcid">5984499</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/733243225">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-55">
                <label>55</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Kovach</surname>
                            <given-names>MA</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Singer</surname>
                            <given-names>B</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Martinez-Colon</surname>
                            <given-names>G</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>IL-36&#x03b3; is a crucial proximal component of protective type-1-mediated lung mucosal immunity in Gram-positive and -negative bacterial pneumonia.</article-title>
                    <source>
			
                        <italic toggle="yes">Mucosal Immunol.</italic>
		</source>
                    <year>2017</year>;<volume>10</volume>(<issue>5</issue>):<fpage>1320</fpage>&#x2013;<lpage>34</lpage>.
                    <pub-id pub-id-type="pmid">28176791</pub-id>
                    <pub-id pub-id-type="doi">10.1038/mi.2016.130</pub-id>
                    <pub-id pub-id-type="pmcid">5548659</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/727289857">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-56">
                <label>56</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Verma</surname>
                            <given-names>AH</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Zafar</surname>
                            <given-names>H</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Ponde</surname>
                            <given-names>NO</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>IL-36 and IL-1/IL-17 Drive Immunity to Oral Candidiasis via Parallel Mechanisms.</article-title>
                    <source>
			
                        <italic toggle="yes">J Immunol.</italic>
		</source>
                    <year>2018</year>;<volume>201</volume>(<issue>2</issue>):<fpage>627</fpage>&#x2013;<lpage>34</lpage>.
                    <pub-id pub-id-type="pmid">29891557</pub-id>
                    <pub-id pub-id-type="doi">10.4049/jimmunol.1800515</pub-id>
                    <pub-id pub-id-type="pmcid">6039262</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/733439513">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-57">
                <label>57</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Gresnigt</surname>
                            <given-names>MS</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>R&#x00f6;sler</surname>
                            <given-names>B</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Jacobs</surname>
                            <given-names>CW</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>The IL-36 receptor pathway regulates 
                        <italic toggle="yes">Aspergillus fumigatus</italic>-induced Th1 and Th17 responses.</article-title>
                    <source>
			
                        <italic toggle="yes">Eur J Immunol.</italic>
		</source>
                    <year>2013</year>;<volume>43</volume>(<issue>2</issue>):<fpage>416</fpage>&#x2013;<lpage>26</lpage>.
                    <pub-id pub-id-type="pmid">23147407</pub-id>
                    <pub-id pub-id-type="doi">10.1002/eji.201242711</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-58">
                <label>58</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Ahsan</surname>
                            <given-names>F</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Moura-Alves</surname>
                            <given-names>P</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Guhlich-Bornhof</surname>
                            <given-names>U</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Role of Interleukin 36&#x03b3; in Host Defense Against Tuberculosis.</article-title>
                    <source>
			
                        <italic toggle="yes">J Infect Dis.</italic>
		</source>
                    <year>2016</year>;<volume>214</volume>(<issue>3</issue>):<fpage>464</fpage>&#x2013;<lpage>74</lpage>.
                    <pub-id pub-id-type="pmid">27389350</pub-id>
                    <pub-id pub-id-type="doi">10.1093/infdis/jiw152</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-59">
                <label>59</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Hawn</surname>
                            <given-names>TR</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Matheson</surname>
                            <given-names>AI</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Maley</surname>
                            <given-names>SN</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Host-directed therapeutics for tuberculosis: can we harness the host?</article-title>
                    <source>
			
                        <italic toggle="yes">Microbiol Mol Biol Rev.</italic>
		</source>
                    <year>2013</year>;<volume>77</volume>(<issue>4</issue>):<fpage>608</fpage>&#x2013;<lpage>27</lpage>.
                    <pub-id pub-id-type="pmid">24296574</pub-id>
                    <pub-id pub-id-type="doi">10.1128/MMBR.00032-13</pub-id>
                    <pub-id pub-id-type="pmcid">3973381</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-60">
                <label>60</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
			
                        <name name-style="western">
                            <surname>Kearns</surname>
                            <given-names>MD</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Alvarez</surname>
                            <given-names>JA</given-names>
                        </name>
			
                        <name name-style="western">
                            <surname>Seidel</surname>
                            <given-names>N</given-names>
                        </name>
			
                        <etal/>
		</person-group>:
                    <article-title>Impact of vitamin D on infectious disease.</article-title>
                    <source>
			
                        <italic toggle="yes">Am J Med Sci.</italic>
		</source>
                    <year>2015</year>;<volume>349</volume>(<issue>3</issue>):<fpage>245</fpage>&#x2013;<lpage>62</lpage>.
                    <pub-id pub-id-type="pmid">25334038</pub-id>
                    <pub-id pub-id-type="doi">10.1097/MAJ.0000000000000360</pub-id>
                    <pub-id pub-id-type="pmcid">4346469</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-61">
                <label>61</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Coussens</surname>
                            <given-names>AK</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Wilkinson</surname>
                            <given-names>RJ</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Martineau</surname>
                            <given-names>AR</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Phenylbutyrate Is Bacteriostatic against 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> and Regulates the Macrophage Response to Infection, Synergistically with 25-Hydroxy-Vitamin D
                        <sub>3</sub>.</article-title>
                    <source>
						
                        <italic toggle="yes">PLoS Pathog.</italic>
					</source>
                    <year>2015</year>;<volume>11</volume>(<issue>7</issue>):<fpage>e1005007</fpage>.
                    <pub-id pub-id-type="pmid">26133770</pub-id>
                    <pub-id pub-id-type="doi">10.1371/journal.ppat.1005007</pub-id>
                    <pub-id pub-id-type="pmcid">4489717</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-62">
                <label>62</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Brighenti</surname>
                            <given-names>S</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Bergman</surname>
                            <given-names>P</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Martineau</surname>
                            <given-names>AR</given-names>
                        </name>
					</person-group>:
                    <article-title>Vitamin D and tuberculosis: where next?</article-title>
                    <source>
						
                        <italic toggle="yes">J Intern Med.</italic>
					</source>
                    <year>2018</year>.
                    <pub-id pub-id-type="pmid">29804293</pub-id>
                    <pub-id pub-id-type="doi">10.1111/joim.12777</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-63">
                <label>63</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>AlMatar</surname>
                            <given-names>M</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Makky</surname>
                            <given-names>EA</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Yakici</surname>
                            <given-names>G</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Antimicrobial peptides as an alternative to anti-tuberculosis drugs.</article-title>
                    <source>
						
                        <italic toggle="yes">Pharmacol Res.</italic>
					</source>
                    <year>2018</year>;<volume>128</volume>:<fpage>288</fpage>&#x2013;<lpage>305</lpage>.
                    <pub-id pub-id-type="pmid">29079429</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.phrs.2017.10.011</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-64">
                <label>64</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Bull</surname>
                            <given-names>NC</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Stylianou</surname>
                            <given-names>E</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Kaveh</surname>
                            <given-names>DA</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Enhanced protection conferred by mucosal BCG vaccination associates with presence of antigen-specific lung tissue-resident PD-1
                        <sup>+</sup> KLRG1
                        <sup>-</sup>CD4
                        <sup>+</sup> T cells.</article-title>
                    <source>
						
                        <italic toggle="yes">Mucosal Immunol.</italic>
					</source>
                    <year>2019</year>;<volume>12</volume>(<issue>2</issue>):<fpage>555</fpage>&#x2013;<lpage>64</lpage>.
                    <pub-id pub-id-type="pmid">30446726</pub-id>
                    <pub-id pub-id-type="doi">10.1038/s41385-018-0109-1</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/734452961">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-65">
                <label>65</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Muruganandah</surname>
                            <given-names>V</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Sathkumara</surname>
                            <given-names>HD</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Navarro</surname>
                            <given-names>S</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>A Systematic Review: The Role of Resident Memory T Cells in Infectious Diseases and Their Relevance for Vaccine Development.</article-title>
                    <source>
						
                        <italic toggle="yes">Front Immunol.</italic>
					</source>
                    <year>2018</year>;<volume>9</volume>:<fpage>1574</fpage>.
                    <pub-id pub-id-type="pmid">30038624</pub-id>
                    <pub-id pub-id-type="doi">10.3389/fimmu.2018.01574</pub-id>
                    <pub-id pub-id-type="pmcid">6046459</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/733688942">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-66">
                <label>66</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Connor</surname>
                            <given-names>LM</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Harvie</surname>
                            <given-names>MC</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Rich</surname>
                            <given-names>FJ</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>A key role for lung-resident memory lymphocytes in protective immune responses after BCG vaccination.</article-title>
                    <source>
						
                        <italic toggle="yes">Eur J Immunol.</italic>
					</source>
                    <year>2010</year>;<volume>40</volume>(<issue>9</issue>):<fpage>2482</fpage>&#x2013;<lpage>92</lpage>.
                    <pub-id pub-id-type="pmid">20602436</pub-id>
                    <pub-id pub-id-type="doi">10.1002/eji.200940279</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-67">
                <label>67</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Hansen</surname>
                            <given-names>SG</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Zak</surname>
                            <given-names>DE</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Xu</surname>
                            <given-names>G</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Prevention of tuberculosis in rhesus macaques by a cytomegalovirus-based vaccine.</article-title>
                    <source>
						
                        <italic toggle="yes">Nat Med.</italic>
					</source>
                    <year>2018</year>;<volume>24</volume>(<issue>2</issue>):<fpage>130</fpage>&#x2013;<lpage>43</lpage>.
                    <pub-id pub-id-type="pmid">29334373</pub-id>
                    <pub-id pub-id-type="doi">10.1038/nm.4473</pub-id>
                    <pub-id pub-id-type="pmcid">5909823</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/732465525">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-68">
                <label>68</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Spira</surname>
                            <given-names>A</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Carroll</surname>
                            <given-names>JD</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Liu</surname>
                            <given-names>G</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Apoptosis genes in human alveolar macrophages infected with virulent or attenuated 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic>: a pivotal role for tumor necrosis factor.</article-title>
                    <source>
						
                        <italic toggle="yes">Am J Respir Cell Mol Biol.</italic>
					</source>
                    <year>2003</year>;<volume>29</volume>(<issue>5</issue>):<fpage>545</fpage>&#x2013;<lpage>51</lpage>.
                    <pub-id pub-id-type="pmid">12748057</pub-id>
                    <pub-id pub-id-type="doi">10.1165/rcmb.2002-0310OC</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-69">
                <label>69</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Park</surname>
                            <given-names>JS</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Tamayo</surname>
                            <given-names>MH</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Gonzalez-Juarrero</surname>
                            <given-names>M</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Virulent clinical isolates of 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> grow rapidly and induce cellular necrosis but minimal apoptosis in murine macrophages.</article-title>
                    <source>
						
                        <italic toggle="yes">J Leukoc Biol.</italic>
					</source>
                    <year>2006</year>;<volume>79</volume>(<issue>1</issue>):<fpage>80</fpage>&#x2013;<lpage>6</lpage>.
                    <pub-id pub-id-type="pmid">16275894</pub-id>
                    <pub-id pub-id-type="doi">10.1189/jlb.0505250</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-70">
                <label>70</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Keane</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Remold</surname>
                            <given-names>HG</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Kornfeld</surname>
                            <given-names>H</given-names>
                        </name>
					</person-group>:
                    <article-title>Virulent 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> strains evade apoptosis of infected alveolar macrophages.</article-title>
                    <source>
						
                        <italic toggle="yes">J Immunol.</italic>
					</source>
                    <year>2000</year>;<volume>164</volume>(<issue>4</issue>):<fpage>2016</fpage>&#x2013;<lpage>20</lpage>.
                    <pub-id pub-id-type="pmid">10657653</pub-id>
                    <pub-id pub-id-type="doi">10.4049/jimmunol.164.4.2016</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-71">
                <label>71</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Kaushal</surname>
                            <given-names>D</given-names>
                        </name>
					</person-group>:
                    <article-title>Eicosanoids, prostaglandins, and the progression of tuberculosis.</article-title>
                    <source>
						
                        <italic toggle="yes">J Infect Dis.</italic>
					</source>
                    <year>2012</year>;<volume>206</volume>:<fpage>1803</fpage>&#x2013;<lpage>5</lpage>.
                    <pub-id pub-id-type="pmid">23033145</pub-id>
                    <pub-id pub-id-type="doi">10.1093/infdis/jis611</pub-id>
                    <pub-id pub-id-type="pmcid">PMC3502378</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-72">
                <label>72</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Liang</surname>
                            <given-names>L</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Zhang</surname>
                            <given-names>Q</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Luo</surname>
                            <given-names>L-L</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Polymorphisms in the prostaglandin receptor EP2 gene confers susceptibility to tuberculosis.</article-title>
                    <source>
						
                        <italic toggle="yes">Infect Genet Evol.</italic>
					</source>
                    <year>2016</year>;<volume>46</volume>:<fpage>23</fpage>&#x2013;<lpage>7</lpage>.
                    <pub-id pub-id-type="pmid">27780787</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.meegid.2016.10.016</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-73">
                <label>73</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Bafica</surname>
                            <given-names>A</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Scanga</surname>
                            <given-names>CA</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Serhan</surname>
                            <given-names>C</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Host control of 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> is regulated by 5-lipoxygenase-dependent lipoxin production.</article-title>
                    <source>
						
                        <italic toggle="yes">J Clin Invest.</italic>
					</source>
                    <year>2005</year>;<volume>115</volume>:<fpage>1601</fpage>&#x2013;<lpage>6</lpage>.
                    <pub-id pub-id-type="pmid">15931391</pub-id>
                    <pub-id pub-id-type="doi">10.1172/JCI23949</pub-id>
                    <pub-id pub-id-type="pmcid">PMC1136995</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/1026193">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-74">
                <label>74</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Tobin</surname>
                            <given-names>DM</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Vary</surname>
                            <given-names>JC</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Ray</surname>
                            <given-names>JP</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>The 
                        <italic toggle="yes">lta4h</italic> locus modulates susceptibility to mycobacterial infection in zebrafish and humans.</article-title>
                    <source>
						
                        <italic toggle="yes">Cell.</italic>
					</source>
                    <year>2010</year>;<volume>140</volume>:<fpage>717</fpage>&#x2013;<lpage>30</lpage>.
                    <pub-id pub-id-type="pmid">20211140</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.cell.2010.02.013</pub-id>
                    <pub-id pub-id-type="pmcid">PMC2907082</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/2456973">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-75">
                <label>75</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Bradfute</surname>
                            <given-names>SB</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Castillo</surname>
                            <given-names>EF</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Arko-Mensah</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Autophagy as an immune effector against tuberculosis.</article-title>
                    <source>
						
                        <italic toggle="yes">Curr Opin Microbiol.</italic>
					</source>
                    <year>2013</year>;<volume>16</volume>:<fpage>355</fpage>&#x2013;<lpage>65</lpage>.
                    <pub-id pub-id-type="pmid">23790398</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.mib.2013.05.003</pub-id>
                    <pub-id pub-id-type="pmcid">PMC3742717</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-76">
                <label>76</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Zhang</surname>
                            <given-names>R</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Varela</surname>
                            <given-names>M</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Vallentgoed</surname>
                            <given-names>W</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>The selective autophagy receptors Optineurin and p62 are both required for zebrafish host resistance to mycobacterial infection.</article-title>
                    <source>
						
                        <italic toggle="yes">PLoS Pathog.</italic>
					</source>
                    <year>2019</year>;<volume>15</volume>(<issue>2</issue>):<fpage>e1007329</fpage>.
                    <pub-id pub-id-type="pmid">30818338</pub-id>
                    <pub-id pub-id-type="doi">10.1371/journal.ppat.1007329</pub-id>
                    <pub-id pub-id-type="pmcid">6413957</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/735179608">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-77">
                <label>77</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Ohsumi</surname>
                            <given-names>Y</given-names>
                        </name>
					</person-group>:
                    <article-title>Historical landmarks of autophagy research.</article-title>
                    <source>
						
                        <italic toggle="yes">Cell Res.</italic>
					</source>
                    <year>2014</year>;<volume>24</volume>(<issue>1</issue>):<fpage>9</fpage>&#x2013;<lpage>23</lpage>.
                    <pub-id pub-id-type="pmid">24366340</pub-id>
                    <pub-id pub-id-type="doi">10.1038/cr.2013.169</pub-id>
                    <pub-id pub-id-type="pmcid">3879711</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-78">
                <label>78</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Singh</surname>
                            <given-names>P</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Subbian</surname>
                            <given-names>S</given-names>
                        </name>
					</person-group>:
                    <article-title>Harnessing the mTOR Pathway for Tuberculosis Treatment.</article-title>
                    <source>
						
                        <italic toggle="yes">Front Microbiol.</italic>
					</source>
                    <year>2018</year>;<volume>9</volume>:<fpage>70</fpage>.
                    <pub-id pub-id-type="pmid">29441052</pub-id>
                    <pub-id pub-id-type="doi">10.3389/fmicb.2018.00070</pub-id>
                    <pub-id pub-id-type="pmcid">5797605</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-79">
                <label>79</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Cerni</surname>
                            <given-names>S</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Shafer</surname>
                            <given-names>D</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>To</surname>
                            <given-names>K</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Investigating the Role of Everolimus in mTOR Inhibition and Autophagy Promotion as a Potential Host-Directed Therapeutic Target in 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> Infection.</article-title>
                    <source>
						
                        <italic toggle="yes">J Clin Med.</italic>
					</source>
                    <year>2019</year>;<volume>8</volume>(<issue>2</issue>): pii: E232.
                    <pub-id pub-id-type="pmid">30754665</pub-id>
                    <pub-id pub-id-type="doi">10.3390/jcm8020232</pub-id>
                    <pub-id pub-id-type="pmcid">6406581</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/735089636">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-80">
                <label>80</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Pilli</surname>
                            <given-names>M</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Arko-Mensah</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Ponpuak</surname>
                            <given-names>M</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>TBK-1 promotes autophagy-mediated antimicrobial defense by controlling autophagosome maturation.</article-title>
                    <source>
						
                        <italic toggle="yes">Immunity.</italic>
					</source>
                    <year>2012</year>;<volume>37</volume>(<issue>2</issue>):<fpage>223</fpage>&#x2013;<lpage>34</lpage>.
                    <pub-id pub-id-type="pmid">22921120</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.immuni.2012.04.015</pub-id>
                    <pub-id pub-id-type="pmcid">3428731</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-81">
                <label>81</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Donovan</surname>
                            <given-names>ML</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Schultz</surname>
                            <given-names>TE</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Duke</surname>
                            <given-names>TJ</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Type I Interferons in the Pathogenesis of Tuberculosis: Molecular Drivers and Immunological Consequences.</article-title>
                    <source>
						
                        <italic toggle="yes">Front Immunol.</italic>
					</source>
                    <year>2017</year>;<volume>8</volume>:<fpage>1633</fpage>.
                    <pub-id pub-id-type="pmid">29230217</pub-id>
                    <pub-id pub-id-type="doi">10.3389/fimmu.2017.01633</pub-id>
                    <pub-id pub-id-type="pmcid">5711827</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-82">
                <label>82</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Kimmey</surname>
                            <given-names>JM</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Campbell</surname>
                            <given-names>JA</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Weiss</surname>
                            <given-names>LA</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>The impact of ISGylation during 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> infection in mice.</article-title>
                    <source>
						
                        <italic toggle="yes">Microbes Infect.</italic>
					</source>
                    <year>2017</year>;<volume>19</volume>:<fpage>249</fpage>&#x2013;<lpage>58</lpage>.
                    <pub-id pub-id-type="pmid">28087453</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.micinf.2016.12.006</pub-id>
                    <pub-id pub-id-type="pmcid">5403610</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-83">
                <label>83</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Travar</surname>
                            <given-names>M</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Petkovic</surname>
                            <given-names>M</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Verhaz</surname>
                            <given-names>A</given-names>
                        </name>
					</person-group>:
                    <article-title>Type I, II, and III Interferons: Regulating Immunity to 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> Infection.</article-title>
                    <source>
						
                        <italic toggle="yes">Arch Immunol Ther Exp (Warsz).</italic>
					</source>
                    <year>2016</year>;<volume>64</volume>:<fpage>19</fpage>&#x2013;<lpage>31</lpage>.
                    <pub-id pub-id-type="pmid">26362801</pub-id>
                    <pub-id pub-id-type="doi">10.1007/s00005-015-0365-7</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-84">
                <label>84</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Manca</surname>
                            <given-names>C</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Tsenova</surname>
                            <given-names>L</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Freeman</surname>
                            <given-names>S</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Hypervirulent 
                        <italic toggle="yes">M. tuberculosis</italic> W/Beijing strains upregulate type I IFNs and increase expression of negative regulators of the Jak-Stat pathway.</article-title>
                    <source>
						
                        <italic toggle="yes">J Interferon Cytokine Res.</italic>
					</source>
                    <year>2005</year>;<volume>25</volume>:<fpage>694</fpage>&#x2013;<lpage>701</lpage>.
                    <pub-id pub-id-type="pmid">16318583</pub-id>
                    <pub-id pub-id-type="doi">10.1089/jir.2005.25.694</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-85">
                <label>85</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Mayer-Barber</surname>
                            <given-names>KD</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Andrade</surname>
                            <given-names>BB</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Barber</surname>
                            <given-names>DL</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Innate and adaptive interferons suppress IL-1&#x03b1; and IL-1&#x03b2; production by distinct pulmonary myeloid subsets during 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> infection.</article-title>
                    <source>
						
                        <italic toggle="yes">Immunity.</italic>
					</source>
                    <year>2011</year>;<volume>35</volume>:<fpage>1023</fpage>&#x2013;<lpage>34</lpage>.
                    <pub-id pub-id-type="pmid">22195750</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.immuni.2011.12.002</pub-id>
                    <pub-id pub-id-type="pmcid">3246221</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/13985966">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-86">
                <label>86</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Mayer-Barber</surname>
                            <given-names>KD</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Andrade</surname>
                            <given-names>BB</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Oland</surname>
                            <given-names>SD</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Host-directed therapy of tuberculosis based on interleukin-1 and type I interferon crosstalk.</article-title>
                    <source>
						
                        <italic toggle="yes">Nature.</italic>
					</source>
                    <year>2014</year>;<volume>511</volume>:<fpage>99</fpage>&#x2013;<lpage>103</lpage>.
                    <pub-id pub-id-type="pmid">24990750</pub-id>
                    <pub-id pub-id-type="doi">10.1038/nature13489</pub-id>
                    <pub-id pub-id-type="pmcid">4809146</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/718478368">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-87">
                <label>87</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Huang</surname>
                            <given-names>S</given-names>
                        </name>
					</person-group>:
                    <article-title>Targeting Innate-Like T Cells in Tuberculosis.</article-title>
                    <source>
						
                        <italic toggle="yes">Front Immunol.</italic>
					</source>
                    <year>2016</year>;<volume>7</volume>:<fpage>594</fpage>.
                    <pub-id pub-id-type="pmid">28066410</pub-id>
                    <pub-id pub-id-type="doi">10.3389/fimmu.2016.00594</pub-id>
                    <pub-id pub-id-type="pmcid">5175204</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-88">
                <label>88</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Kim</surname>
                            <given-names>JS</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Jordan</surname>
                            <given-names>MS</given-names>
                        </name>
					</person-group>:
                    <article-title>Diversity of IL-17-producing T lymphocytes.</article-title>
                    <source>
						
                        <italic toggle="yes">Cell Mol Life Sci.</italic>
					</source>
                    <year>2013</year>;<volume>70</volume>:<fpage>2271</fpage>&#x2013;<lpage>90</lpage>.
                    <pub-id pub-id-type="pmid">23052209</pub-id>
                    <pub-id pub-id-type="doi">10.1007/s00018-012-1163-6</pub-id>
                    <pub-id pub-id-type="pmcid">3568230</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-89">
                <label>89</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Lyadova</surname>
                            <given-names>IV</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Panteleev</surname>
                            <given-names>AV</given-names>
                        </name>
					</person-group>:
                    <article-title>Th1 and Th17 Cells in Tuberculosis: Protection, Pathology, and Biomarkers.</article-title>
                    <source>
						
                        <italic toggle="yes">Mediators Inflamm.</italic>
					</source>
                    <year>2015</year>;<volume>2015</volume>:<fpage>1</fpage>&#x2013;<lpage>13</lpage>.
                    <pub-id pub-id-type="pmid">26640327</pub-id>
                    <pub-id pub-id-type="doi">10.1155/2015/854507</pub-id>
                    <pub-id pub-id-type="pmcid">4657112</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-90">
                <label>90</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Roy Chowdhury</surname>
                            <given-names>R</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Vallania</surname>
                            <given-names>F</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Yang</surname>
                            <given-names>Q</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>A multi-cohort study of the immune factors associated with 
                        <italic toggle="yes">M. tuberculosis</italic> infection outcomes.</article-title>
                    <source>
						
                        <italic toggle="yes">Nature.</italic>
					</source>
                    <year>2018</year>;<volume>560</volume>:<fpage>644</fpage>&#x2013;<lpage>8</lpage>.
                    <pub-id pub-id-type="pmid">30135583</pub-id>
                    <pub-id pub-id-type="doi">10.1038/s41586-018-0439-x</pub-id>
                    <pub-id pub-id-type="pmcid">6414221</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/733846436">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-91">
                <label>91</label>
                <mixed-citation publication-type="book">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Wellmann</surname>
                            <given-names>A</given-names>
                        </name>
					</person-group>:
                    <article-title>The Modulation of Innate Lymphoid Cells in Tuberculosis and HIV co-infection</article-title>. Poster Session Presented at: TB and Co-morbidities.
                    <italic toggle="yes">Keystone Symposium on Host Response in Tuberculosis</italic>. Santa Fe, NM, USA (2015).<year>2015</year>.
                    <ext-link ext-link-type="uri" xlink:href="https://www.researchgate.net/publication/273268918_The_Modulation_of_Innate_Lymphoid_Cells_in_Tuberculosis_and_HIV_co-infection">Reference Source</ext-link>
                </mixed-citation>
            </ref>
            <ref id="ref-92">
                <label>92</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Panda</surname>
                            <given-names>S</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Ding</surname>
                            <given-names>JL</given-names>
                        </name>
					</person-group>:
                    <article-title>Natural antibodies bridge innate and adaptive immunity.</article-title>
                    <source>
						
                        <italic toggle="yes">J Immunol.</italic>
					</source>
                    <year>2015</year>;<volume>194</volume>(<issue>1</issue>):<fpage>13</fpage>&#x2013;<lpage>20</lpage>.
                    <pub-id pub-id-type="pmid">25527792</pub-id>
                    <pub-id pub-id-type="doi">10.4049/jimmunol.1400844</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/725290216">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-93">
                <label>93</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Kozakiewicz</surname>
                            <given-names>L</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Phuah</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Flynn</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>The role of B cells and humoral immunity in 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> infection.</article-title>
                    <source>
						
                        <italic toggle="yes">Adv Exp Med Biol.</italic>
					</source>
                    <year>2013</year>;<volume>783</volume>:<fpage>225</fpage>&#x2013;<lpage>50</lpage>.
                    <pub-id pub-id-type="pmid">23468112</pub-id>
                    <pub-id pub-id-type="doi">10.1007/978-1-4614-6111-1_12</pub-id>
                    <pub-id pub-id-type="pmcid">4184189</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-94">
                <label>94</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Venkataswamy</surname>
                            <given-names>MM</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Baena</surname>
                            <given-names>A</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Goldberg</surname>
                            <given-names>MF</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Incorporation of NKT cell-activating glycolipids enhances immunogenicity and vaccine efficacy of 
                        <italic toggle="yes">Mycobacterium bovis</italic> bacillus Calmette-Guerin.</article-title>
                    <source>
						
                        <italic toggle="yes">J Immunol.</italic>
					</source>
                    <year>2009</year>;<volume>183</volume>(<issue>3</issue>):<fpage>1644</fpage>&#x2013;<lpage>56</lpage>.
                    <pub-id pub-id-type="pmid">19620317</pub-id>
                    <pub-id pub-id-type="doi">10.4049/jimmunol.0900858</pub-id>
                    <pub-id pub-id-type="pmcid">2719834</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/719460336">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-95">
                <label>95</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Wozniak</surname>
                            <given-names>TM</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Saunders</surname>
                            <given-names>BM</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Ryan</surname>
                            <given-names>AA</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>
                        <italic toggle="yes">Mycobacterium bovis</italic> BCG-specific Th17 cells confer partial protection against 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> infection in the absence of gamma interferon.</article-title>
                    <source>
						
                        <italic toggle="yes">Infect Immun.</italic>
					</source>
                    <year>2010</year>;<volume>78</volume>(<issue>10</issue>):<fpage>4187</fpage>&#x2013;<lpage>94</lpage>.
                    <pub-id pub-id-type="pmid">20679438</pub-id>
                    <pub-id pub-id-type="doi">10.1128/IAI.01392-09</pub-id>
                    <pub-id pub-id-type="pmcid">2950338</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-96">
                <label>96</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Li</surname>
                            <given-names>Q</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Li</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Tian</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>IL-17 and IFN-&#x03b3; production in peripheral blood following BCG vaccination and Mycobacterium tuberculosis infection in human.</article-title>
                    <source>
						
                        <italic toggle="yes">Eur Rev Med Pharmacol Sci.</italic>
					</source>
                    <year>2012</year>;<volume>16</volume>(<issue>14</issue>):<fpage>2029</fpage>&#x2013;<lpage>36</lpage>.
                    <pub-id pub-id-type="pmid">23242733</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-97">
                <label>97</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Coulter</surname>
                            <given-names>F</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Parrish</surname>
                            <given-names>A</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Manning</surname>
                            <given-names>D</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>IL-17 Production from T Helper 17, Mucosal-Associated Invariant T, and &#x03b3;&#x03b4; Cells in Tuberculosis Infection and Disease.</article-title>
                    <source>
						
                        <italic toggle="yes">Front Immunol.</italic>
					</source>
                    <year>2017</year>;<volume>8</volume>:<fpage>1252</fpage>.
                    <pub-id pub-id-type="pmid">29075255</pub-id>
                    <pub-id pub-id-type="doi">10.3389/fimmu.2017.01252</pub-id>
                    <pub-id pub-id-type="pmcid">5641565</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-98">
                <label>98</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Babu</surname>
                            <given-names>S</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Bhat</surname>
                            <given-names>SQ</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Kumar</surname>
                            <given-names>NP</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Regulatory T cells modulate Th17 responses in patients with positive tuberculin skin test results.</article-title>
                    <source>
						
                        <italic toggle="yes">J Infect Dis.</italic>
					</source>
                    <year>2010</year>;<volume>201</volume>(<issue>1</issue>):<fpage>20</fpage>&#x2013;<lpage>31</lpage>.
                    <pub-id pub-id-type="pmid">19929695</pub-id>
                    <pub-id pub-id-type="doi">10.1086/648735</pub-id>
                    <pub-id pub-id-type="pmcid">2791194</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-99">
                <label>99</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Delgado</surname>
                            <given-names>JC</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Tsai</surname>
                            <given-names>EY</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Thim</surname>
                            <given-names>S</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Antigen-specific and persistent tuberculin anergy in a cohort of pulmonary tuberculosis patients from rural Cambodia.</article-title>
                    <source>
						
                        <italic toggle="yes">Proc Natl Acad Sci U S A.</italic>
					</source>
                    <year>2002</year>;<volume>99</volume>(<issue>11</issue>):<fpage>7576</fpage>&#x2013;<lpage>81</lpage>.
                    <pub-id pub-id-type="pmid">12032325</pub-id>
                    <pub-id pub-id-type="doi">10.1073/pnas.062056099</pub-id>
                    <pub-id pub-id-type="pmcid">124289</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-100">
                <label>100</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Thye</surname>
                            <given-names>T</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Browne</surname>
                            <given-names>EN</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Chinbuah</surname>
                            <given-names>MA</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>
                        <italic toggle="yes">IL10</italic> haplotype associated with tuberculin skin test response but not with pulmonary TB.</article-title>
                    <source>
						
                        <italic toggle="yes">PLoS One.</italic>
					</source>
                    <year>2009</year>;<volume>4</volume>(<issue>5</issue>):<fpage>e5420</fpage>.
                    <pub-id pub-id-type="pmid">19412539</pub-id>
                    <pub-id pub-id-type="doi">10.1371/journal.pone.0005420</pub-id>
                    <pub-id pub-id-type="pmcid">2671601</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-101">
                <label>101</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Arcos</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Sasindran</surname>
                            <given-names>SJ</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Moliva</surname>
                            <given-names>JI</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> cell wall released fragments by the action of the human lung mucosa modulate macrophages to control infection in an IL-10-dependent manner.</article-title>
                    <source>
						
                        <italic toggle="yes">Mucosal Immunol.</italic>
					</source>
                    <year>2017</year>;<volume>10</volume>(<issue>5</issue>):<fpage>1248</fpage>&#x2013;<lpage>58</lpage>.
                    <pub-id pub-id-type="pmid">28000679</pub-id>
                    <pub-id pub-id-type="doi">10.1038/mi.2016.115</pub-id>
                    <pub-id pub-id-type="pmcid">5479761</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/727133258">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-102">
                <label>102</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Kaufmann</surname>
                            <given-names>E</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Sanz</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Dunn</surname>
                            <given-names>JL</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>BCG Educates Hematopoietic Stem Cells to Generate Protective Innate Immunity against Tuberculosis.</article-title>
                    <source>
						
                        <italic toggle="yes">Cell.</italic>
					</source>
                    <year>2018</year>;<volume>172</volume>(<issue>1-2</issue>):<fpage>176</fpage>&#x2013;<lpage>190.e19</lpage>.
                    <pub-id pub-id-type="pmid">29328912</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.cell.2017.12.031</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/732450290">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-103">
                <label>103</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Kleinnijenhuis</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Quintin</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Preijers</surname>
                            <given-names>F</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Bacille Calmette-Guerin induces NOD2-dependent nonspecific protection from reinfection via epigenetic reprogramming of monocytes.</article-title>
                    <source>
						
                        <italic toggle="yes">Proc Natl Acad Sci U S A.</italic>
					</source>
                    <year>2012</year>;<volume>109</volume>(<issue>43</issue>):<fpage>17537</fpage>&#x2013;<lpage>42</lpage>.
                    <pub-id pub-id-type="pmid">22988082</pub-id>
                    <pub-id pub-id-type="doi">10.1073/pnas.1202870109</pub-id>
                    <pub-id pub-id-type="pmcid">3491454</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-104">
                <label>104</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Koeken</surname>
                            <given-names>VACM</given-names>
                        </name>
							
                        <name name-style="western">
                            <surname>Verrall</surname>
                            <given-names>AJ</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Netea</surname>
                            <given-names>MG</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Trained innate immunity and resistance to 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> infection.</article-title>
                    <source>
						
                        <italic toggle="yes">Clin Microbiol Infect.</italic>
					</source>
                    <year>2019</year>; pii: S1198-743X(19)30081-3
                    <pub-id pub-id-type="pmid">30807849</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.cmi.2019.02.015</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/735165742">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-105">
                <label>105</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Arts</surname>
                            <given-names>RJW</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Moorlag</surname>
                            <given-names>SJCFM</given-names>
                        </name>
							
                        <name name-style="western">
                            <surname>Novakovic</surname>
                            <given-names>B</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>BCG Vaccination Protects against Experimental Viral Infection in Humans through the Induction of Cytokines Associated with Trained Immunity.</article-title>
                    <source>
						
                        <italic toggle="yes">Cell Host Microbe.</italic>
					</source>
                    <year>2018</year>;<volume>23</volume>(<issue>1</issue>):<fpage>89</fpage>&#x2013;<lpage>100.e5</lpage>.
                    <pub-id pub-id-type="pmid">29324233</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.chom.2017.12.010</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/732450556">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-106">
                <label>106</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Verma</surname>
                            <given-names>D</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Parasa</surname>
                            <given-names>VR</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Raffetseder</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Anti-mycobacterial activity correlates with altered DNA methylation pattern in immune cells from BCG-vaccinated subjects.</article-title>
                    <source>
						
                        <italic toggle="yes">Sci Rep.</italic>
					</source>
                    <year>2017</year>;<volume>7</volume>:<fpage>12305</fpage>.
                    <pub-id pub-id-type="doi">10.1038/s41598-017-12110-2</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/731386727">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-107">
                <label>107</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Arts</surname>
                            <given-names>RJW</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Carvalho</surname>
                            <given-names>A</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>La Rocca</surname>
                            <given-names>C</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Immunometabolic Pathways in BCG-Induced Trained Immunity.</article-title>
                    <source>
						
                        <italic toggle="yes">Cell Rep.</italic>
					</source>
                    <year>2016</year>;<volume>17</volume>(<issue>10</issue>):<fpage>2562</fpage>&#x2013;<lpage>71</lpage>.
                    <pub-id pub-id-type="pmid">27926861</pub-id>
                    <pub-id pub-id-type="doi">10.1016/j.celrep.2016.11.011</pub-id>
                    <pub-id pub-id-type="pmcid">5177620</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/727082625">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-108">
                <label>108</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Bekkering</surname>
                            <given-names>S</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Blok</surname>
                            <given-names>BA</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Joosten</surname>
                            <given-names>LAB</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>
                        <italic toggle="yes">In Vitro</italic> Experimental Model of Trained Innate Immunity in Human Primary Monocytes.</article-title>
                    <source>
						
                        <italic toggle="yes">Clin Vaccine Immunol.</italic>
					</source>
                    <year>2016</year>;<volume>23</volume>:<fpage>926</fpage>&#x2013;<lpage>33</lpage>.
                    <pub-id pub-id-type="pmid">27733422</pub-id>
                    <pub-id pub-id-type="doi">10.1128/CVI.00349-16</pub-id>
                    <pub-id pub-id-type="pmcid">5139603</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-109">
                <label>109</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Nemes</surname>
                            <given-names>E</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Geldenhuys</surname>
                            <given-names>H</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Rozot</surname>
                            <given-names>V</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Prevention of 
                        <italic toggle="yes">M. tuberculosis</italic> Infection with H4:IC31 Vaccine or BCG Revaccination.</article-title>
                    <source>
						
                        <italic toggle="yes">N Engl J Med.</italic>
					</source>
                    <year>2018</year>;<volume>379</volume>:<fpage>138</fpage>&#x2013;<lpage>49</lpage>.
                    <pub-id pub-id-type="pmid">29996082</pub-id>
                    <pub-id pub-id-type="doi">10.1056/NEJMoa1714021</pub-id>
                    <pub-id pub-id-type="pmcid">5937161</pub-id>
                </mixed-citation>
                <note>
                    <p>
                        <ext-link ext-link-type="uri" xlink:href="https://f1000.com/prime/733620530">F1000 Recommendation</ext-link>
                    </p>
                </note>
            </ref>
            <ref id="ref-110">
                <label>110</label>
                <mixed-citation publication-type="journal">
                    <collab>US. Food and Drug Administration</collab>:
                    <article-title>Drug Approvals and Databases</article-title>.
                    <ext-link ext-link-type="uri" xlink:href="https://www.fda.gov/drugs/development-approval-process-drugs/drug-approvals-and-databases">Reference Source</ext-link>
                </mixed-citation>
            </ref>
            <ref id="ref-111">
                <label>111</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Spigelman</surname>
                            <given-names>MK</given-names>
                        </name>
					</person-group>:
                    <article-title>New tuberculosis therapeutics: a growing pipeline.</article-title>
                    <source>
						
                        <italic toggle="yes">J Infect Dis.</italic>
					</source>
                    <year>2007</year>;<volume>196</volume>:<fpage>S28</fpage>&#x2013;<lpage>S34</lpage>.
                    <pub-id pub-id-type="pmid">17624823</pub-id>
                    <pub-id pub-id-type="doi">10.1086/518663</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-112">
                <label>112</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Reiling</surname>
                            <given-names>N</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Homolka</surname>
                            <given-names>S</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Walter</surname>
                            <given-names>K</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Clade-specific virulence patterns of 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> complex strains in human primary macrophages and aerogenically infected mice.</article-title>
                    <source>
						
                        <italic toggle="yes">mBio.</italic>
					</source>
                    <year>2013</year>;<volume>4</volume>:<fpage>e00250</fpage>&#x2013;<lpage>13</lpage>.
                    <pub-id pub-id-type="pmid">23900170</pub-id>
                    <pub-id pub-id-type="doi">10.1128/mBio.00250-13</pub-id>
                    <pub-id pub-id-type="pmcid">3735190</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-113">
                <label>113</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>van Laarhoven</surname>
                            <given-names>A</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Mandemakers</surname>
                            <given-names>JJ</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Kleinnijenhuis</surname>
                            <given-names>J</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Low induction of proinflammatory cytokines parallels evolutionary success of modern strains within the 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> Beijing genotype.</article-title>
                    <source>
						
                        <italic toggle="yes">Infect Immun.</italic>
					</source>
                    <year>2013</year>;<volume>81</volume>:<fpage>3750</fpage>&#x2013;<lpage>6</lpage>.
                    <pub-id pub-id-type="pmid">23897611</pub-id>
                    <pub-id pub-id-type="doi">10.1128/IAI.00282-13</pub-id>
                    <pub-id pub-id-type="pmcid">3811744</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-114">
                <label>114</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Theus</surname>
                            <given-names>SA</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Cave</surname>
                            <given-names>MD</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Eisenach</surname>
                            <given-names>KD</given-names>
                        </name>
					</person-group>:
                    <article-title>Intracellular macrophage growth rates and cytokine profiles of 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> strains with different transmission dynamics.</article-title>
                    <source>
						
                        <italic toggle="yes">J Infect Dis.</italic>
					</source>
                    <year>2005</year>;<volume>191</volume>:<fpage>453</fpage>&#x2013;<lpage>60</lpage>.
                    <pub-id pub-id-type="pmid">15633105</pub-id>
                    <pub-id pub-id-type="doi">10.1086/425936</pub-id>
                </mixed-citation>
            </ref>
            <ref id="ref-115">
                <label>115</label>
                <mixed-citation publication-type="journal">
                    <person-group person-group-type="author">
						
                        <name name-style="western">
                            <surname>Verma</surname>
                            <given-names>S</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Bhatt</surname>
                            <given-names>K</given-names>
                        </name>
						
                        <name name-style="western">
                            <surname>Lovey</surname>
                            <given-names>A</given-names>
                        </name>
						
                        <etal/>
					</person-group>:
                    <article-title>Transmission phenotype of 
                        <italic toggle="yes">Mycobacterium tuberculosis</italic> strains is mechanistically linked to induction of distinct pulmonary pathology.</article-title>
                    <source>
						
                        <italic toggle="yes">PLoS Pathog.</italic>
					</source>
                    <year>2019</year>;<volume>15</volume>:<fpage>e1007613</fpage>.
                    <pub-id pub-id-type="pmid">30840702</pub-id>
                    <pub-id pub-id-type="doi">10.1371/journal.ppat.1007613</pub-id>
                    <pub-id pub-id-type="pmcid">6422314</pub-id>
                </mixed-citation>
            </ref>
        </ref-list>
    </back>
</article>
