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Association study of melatonin receptor 1 A with litter size in sheep: A review

[version 1; peer review: 2 approved with reservations]
PUBLISHED 28 Jul 2023
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This article is included in the Agriculture, Food and Nutrition gateway.

This article is included in the Genomics and Genetics gateway.

Abstract

Sheep are a valuable livestock species worldwide, providing meat, milk, and various dairy products. This article aims to review the latest literature on the melatonin receptor 1A (MTNR1A) gene as a potential candidate gene associated with reproductive traits, particularly the litter size trait in sheep, by searching various databases for available literature. Studies have shown that different parts of the MTNR1A gene play various roles in sheep. By identifying marker genes associated with reproductive traits in MTNR1A polymorphisms linked to the litter size trait, breeders can achieve a faster selection response in sheep breeding by recognizing the genomic region where these genes are located and understanding their physiological functions. Therefore, highlighting the literature on these functions and their association with reproductive traits may contribute to improving the genetic makeup during sheep breeding.

Keywords

sheep; MTNR1A; litter size; polymorphism

Introduction

As a result of the increasing demand for livestock production, there is a growing need for animals that are able to reproduce larger litter size.1,2 The ovulation rate, hormones, and growth factors all play a role in determining the litter size, which is one of the most important characteristics of fertility in animals.3,4

It has been noted that in sheep breeds where estrous activity peaks during short days, variations in day length may function as a main factor determining seasonal variations in estrous activity.5,6 In the pineal gland, the indole hormone melatonin (MT) is produced,7 which is linked to changes in light signals of the external natural environment.812

The binding melatonin receptor, also known as MTNR, has a variety of biological purposes, some of the most important of which include the regulation of animal sexual behavior, reproduction, and circadian rhythm13 a factor that has a positive influence on reproduction even when the night is longer.8 In most livestock species, mutations in the MTNR1A gene are linked to ovarian function and litter size.11,14,15 Despite the fact that several scholars have investigated the aspects of growth that influence the reproductive characteristics of goats.16,17

Melatonin has an effect on reproduction, which is mediated through receptors that are found in the hypophyseal pars tuberalis.18 Melatonin has an effect on the pars tuberalis, which in turn has an effect on the seasonal reproductive activity of females in a number of different mammalian species.19 This includes the nuclei that are responsible for reproduction.20 Preceding studies have revealed that the polymorphisms in the MTNR1A gene sequence have an effect on the ability of Rasa Aragonesa rams to reproduce both when they are young and when they are adults.21 In particular, the T/T or G/G genotype was shown to be connected with earlier ram-lamb mating activity, and adult rams that carried the T/T or G/G genotype exhibited the highest reproductive behavior in the spring.20

Due to the fact that sheep have a clearly established circadian rhythm,9 it is vitally necessary to investigate the mechanisms behind seasonal reproduction in this species. Melatonin production can be stimulated by exposing the eye to less light for longer periods of time. The pituitary gland’s production of follicle-stimulating hormone and luteinizing hormone is influenced by the amount of melatonin that is present in the bloodstream.9 The purpose of this article is to review the most recent literature on this topic may help to shed light on the mechanisms behind seasonal reproduction in sheep.

MTNR1A location

The gene known as MTNR1A can be found in sheep on chromosome 26. It involves two exons that are split up by an intron that is nearly 22 kilobases (kb) in length and stretches from the position 17,354,820 to the position 17,377,973 in the Oar rambouillet v1.0 genome assembly. This region can be found between the two numbers 17,354,820 and 17,377,973. The length of exon I of the MTNR1A gene is approximately 260 base pairs, whereas the length of exon II is around 970 base pairs.6,22 Ewes’ seasonal reproductive activity is linked to the presence of many polymorphic sites at the MTNR1A locus, which can be found to be variable.5,14 Despite the fact that the ramifications of the MTNR1A gene on reproductive seasonality have only been investigated to a limited extent up until this point, those studies have shown that these effects are tied to three specific mutations discovered in exon II at locations 606, 612, and 706,6,22,23 only sheep of the Sarda and Aragonese breeds have had the remaining portions of this gene examined.11,2427

MTNR1A role by season

The duration of nocturnal melatonin secretion is affected by photoperiod variations between short and long days, which controls reproductive activity through the hypothalamic-pituitary-gonadal axis in seasonal sheep breeds located in areas with a temperate climate.27 These sheep breeds are bred in climates that are considered to be moderate.28 In the study of Martínez-Royo27 observed that reproductive functions were present in Merino d’Arles only in the month of April, as evidenced by varying progesterone concentrations. It was also shown that the SNP known as rs430181568, which was formerly known as 612/MnlI, is connected with the reproductive patterns that are associated with the different seasons. When analyzing the patterns of ram-ewe mating in the Rasa Aragonesa breed, ewes with the A/A genotype at the rs406779174 gene showed higher fertility between January and August than those with G/A or G/G genotypes. Ewes mating to rams or other ewes had the same results.27 This was the case regardless of whether the ewes were mated to rams or other ewes.

Both of these (606 and 612) loci have been linked in Indian breeds to ewes having lambs during times of the year when the ewes of these breeds would not normally be in oestrus.19 These two SNPs were found to be associated with the resumption of reproductive activities in the fall, following a period of seasonal anoestrus, in the animals studied, Slovenia is home to a variety of sheep breeds used for both dairy and meat production.15

Melatonin production requires the participation of two distinct receptors; however, simply the melatonin receptor subtype 1A (MTNR1A) is believed to be a potential candidate gene that mediates the photoperiodic reproductive seasonality in sheep.19 Certain genotypes have been linked to reproductive activity that occurs outside of the normal breeding season.27 Despite the fact that sheep milk is a highly significant produce for Greece and the raw material intended for a great deal of products with a protected designation of origin.8 Polymorphisms found within the MTNR1A gene of the Sarda sheep breed, which has a period of anoestrus in the late winter/early spring, led to improvements in the return of reproductive function.6 However, in the Aragonesa breed, the polymorphism at position 612 was the sole one linked to a larger percentage of oestrous cyclic ewes between January and August.27

The change in annual photoperiod, which governs the production of melatonin and is the primary environmental element that determines reproductive timing.15 Melatonin secretion is lower throughout the long photoperiodic phases of the year, whereas it is higher during the shorter photoperiodic periods. As a result, various biological rhythms exist, such as seasonal reproduction, which is regulated by photoperiodic patterns.15

In small ruminants, the considerably higher nighttime MT concentrations that generally occur throughout the fall have a beneficial influence on reproductive activity,15 Allelic variations at locations g.15099491C > T and g.15099485 A > G in the MTNR1A gene exon II have been connected with the seasonal reproductive features in a variety of sheep breeds. These sites are located in the MTNR1A gene,8,29 only the g.15099491C > T polymorphism was linked to a greater proportion of oestrous cyclic ewes in the Aragonesa breed between January and August.27 These findings suggest that there is a connection the MTNR1A gene and reproduction season. Breed, management (including the presence or absence of males), and environmental conditions can all affect the timing of a gene polymorphism and the subsequent reproductive season. Thus, the length of time researchers observed subjects before drawing conclusions about the relationship between polymorphisms of this gene and the resumption of reproductive behavior is likely to be variable between studies.30 The findings of all of this research suggested that there was a relationship between the MTNR1A gene and the modulation of seasonal impacts on the reproduction of ewes in the breeds that were investigated.12

MTNR1A in female reproduction

After ovulation, progesterone is crucial for both the maintenance of pregnancy and the maintenance of a normal estrous cycle. As a further point, the granulosa cells in bigger ovarian follicles secrete the most progesterone.23 Because melatonin causes an increase in the diameter of the corpus luteum, it also causes an increase in the concentration of plasma progesterone.31 Melatonin might well be able to exercise direct control over the ovary due to the existence of melatonin receptors in ovarian follicles.32 Melatonin has been shown to stimulate progesterone secretion in granulosa cells, and it appears that MTNR1A plays a role in this process. However, blocking this receptor significantly reduces progesterone synthesis, melatonin’s effect on progesterone production may be partly due to MTNR1A, Consequently, melatonin’s ability to affect reproductive behavior in sheep stems from its ability to inhibit apoptotic genes while simultaneously stimulating antioxidant genes and progesterone synthesis via the MT1 receptor.33

Due to the fact that melatonin is a hormone that is secreted by the body, its influence on the development of sheep oocytes in vitro is an excellent subject for research into the underlying molecular process. This was demonstrated by an experiment conducted in vitro, which also discovered that the addition of MT to the maturation process in vitro boosted the percentage of cultivated sheep oocytes that developed into blastocysts. The most valuable application of sheep MT is in scientific research.34

MTNR1A gene and the reproductive performance of rams

It is unclear whether the specific gene variations responsible for the seasonal pattern in male sexual behavior have any impact on ram reproduction. Melatonin, produced in the testes, interacts with melatonin receptors in various testicular locations.21 The reproductive behavior of female ewes is influenced by breed, season, and the presence of male rams. However, the application of uniting males with ewes in breeding populations is challenging due to the variable reproductive responses of ewes30 Melatonin receptors MT1 and MT2 in the testes, accessory glands, and sperm suggest a direct effect of melatonin on the ram’s reproductive tract.21

Recent studies indicate that melatonin can be produced in the male reproductive tissues, particularly the testes, explaining the high levels found in ram seminal plasma, especially during the daytime.35 Melatonin concentrations in seminal plasma and follicular fluid can exceed those in blood serum, suggesting a direct influence on sperm function.36 Melatonin affects sperm capacitation and in vitro fertilization outcomes in rams. The effects depend on the dosage, with low doses promoting capacitation and high doses inhibiting it.36 Melatonin acts by reducing cyclic adenosine monophosphate (cAMP) levels, suppressing protein kinase A (PKA) activity, a pathway involved in sperm capacitation.37 Different subpopulations of ejaculated ram spermatozoa exhibit variations in melatonin receptor distribution, suggesting differences in their physiological states. Melatonin inhibits apoptosis and modifies sperm capacitation through the MT2 receptor.35 Melatonin produced in the testes protects developing spermatozoa from oxidative damage, additionally, seasonal changes in ram seminal plasma composition and the impact of melatonin treatment have been observed.38

Melatonin implantation in mature rams stimulates testicular growth, increases testosterone levels, improves semen quality, and enhances overall reproductive performance.39 Melatonin directly affects sperm motility and other characteristics during non-breeding seasons.39 Administering melatonin during the non-breeding season can improve testicular function beyond signaling the onset of the breeding season. Effective doses for enhancing testicular size in mature rams range from 36 to 54 mg.40 Furthermore, melatonin protects testicular tissue and improves semen quality in heat-stressed male goats by reducing oxidative stress.41

In conclusion, this study highlights the importance of the MTNR1A gene and melatonin in ram reproduction, elucidating their influence on sexual behavior, sperm function, and testicular health. Further research is needed to understand the underlying mechanisms and practical implications for improving ram breeding outcomes

MTNR1A function

In animals, two high-affinity melatonin receptors known as MT1 and MT2 have been discovered; nevertheless, only MT1 is important in the regulation of reproductive behaviors. Melatonin exerts its effects by binding to certain receptors that are situated in a number of organs, the nuclei of the central nervous system are responsible for regulating reproductive activity. Melatonin’s actions are exerted.15

Although the Pars Tuberalis (PT) contains a significant number of receptors, this formation is only slightly implicated in the regulation of reproduction.21 However, the PT unquestionably plays important roles in the photoperiodic regulation of prolactin secretion.15 However, only a tiny number of these receptors are found in the premamillary hypothalamus, which is the area of the brain responsible for reproduction when melatonin is present15 is only slightly implicated in the reg.15 The MT1 receptor gene (MTNR1A) has been found to exist in a variety of organisms. It belongs to the class of proteins called G protein-coupled receptors. There are a variety of polymorphisms, in exon II of the MTNR1A gene, that are known to influence the reproductive capabilities of different species according to the changing seasons.35

MTNR1A and MTNR1B are the two subtypes that can be distinguished when referring to melatonin receptors. The suprachiasmatic nucleus and pituitary nodules of the hypothalamus are the primary locations where MTNR1A is found in animals.7 This location is significant since it is associated with the control of animal reproduction.7 The activity of MTNR1B is not particularly high, however MTNR1B-mediated MT may have an effect on insulin secretion.42 Therefore, MT mostly joins with MTNR1A, performing a particular function in the biological world.24

Melatonin activates hypothalamic receptors. The suprachiasmatic nucleus houses the circadian clock, and thepremamillary hypothalamus controls the hormone’s reproductive actions.12 The premamillary hypothalamus has less melatonin MT1 receptors than the pars tuberalis.12 Sperm from non-seasonal animals have melatonin receptors. Their roles in spermatozoa may not be tied to seasonal fluctuations.43 Protection of human sperm from oxidative damage and apoptosis has also been linked to the melatonin receptor MT1,44 MT2, on the other hand, has been linked to the regulation of the capacity of male sperm to reproduce in vitro.35 The plasma of rams from three different sheep breeds was shown to contain melatonin when the rams were exposed to an equatorial photoperiod that changes between wet and dry seasons,45 while the source of this variation persists unidentified.28

Genetic association in the MTNR1A gene

Multiple variants of the MTNR1A gene have been discovered in sheep breeds worldwide, some of which have little impact on reproductive ability, while others can improve ovulation rates and litter sizes, or play an important role in male reproduction. Kianpoor et al.46 demonstrated a statistically significant relationship between the morphological characteristics and the genotypes of the MTNR1A gene. However, according to the results of Fathy et al.,47 the MTNR1A gene polymorphisms were not associated with most characteristics related to sperm quality and testicular size. Instead, the Ossimi and Barki breeds had the highest frequency of allele C, while the Rahmani breed had more allele T, with both Rahmani and Ossimi ewes with the MTNR1A SNP showing the shortest age at first lambing. Similarly, Mura et al.48 showed that rs430181568 and rs407388227 were linked to the fecundity of adult Sarda ewes. Moreover, the MTNR1A gene affects ram fertility in both juvenile and adult stages, as seen in the results of Vibha et al.49 and Mura et al.24 However, some studies, such as that of Z. Davari Varanlou et al.,50 did not find any association between this gene and reproductive or growth characteristics.

The study by Hatami M et al.51 revealed a significant association between MTNR1A/MnlI genotypes and BW1 (P<0.05), with Mm genotypes having a higher BW1 than MM genotypes as per the Least Squares analysis. Further research suggests that both MTNR1A SNPs, g.15118683C > T and g.15118951G > A, may influence the timing of oestrus and pregnancy in certain sheep breeds, with Small Tail Han sheep carrying a homozygous mutation (TT) at the g.15118756C > T locus exhibiting higher litter size.6 However, no correlation between genotype and litter size was.1,2 The ovulation rate, hormones, and growth factors all play a role in determining the litter size, which is one of the most important characteristics of fertility in animals.3,4 In the Istrian Pramenka breed, except for ewes with the other two genotypes, the A/A genotype was positively associated with higher fecundity (P<0.05) and a shorter DRPEL (P<0.05).52

Mura et al.24 reported the use of RsaI and MnlI restriction enzyme digestion to identify T606C and A612G polymorphisms in the amplicons. Ewes with the G/G, G/A, C/C, and C/T genotypes exhibited increased fecundity (P<0.05) and shorter intervals between ram introduction and parturition (P<0.05) compared to those with the A/A and T/T genotypes. The study revealed that mutations in the MTNR1A gene affected the timing of the Sarda sheep breed’s return to reproduction in the spring. Furthermore, variations in the MTNR1A gene sequence impacted ram fertility during both juvenile and adult stages of life. T/T and G/G ram-lambs born in the fall had superior reproductive abilities, while T/T and G/G adult rams exhibited the most aggressive mating behavior.21 The SNP rs403212791, which alters the amino acid content from Arginine to Cysteine (R336C), may result in reproductive seasonality trait changes. The rs403212791 T allele in the MTNR1A gene was positively associated with the oestrus cycling months OCM values, which indicate behavioral indicators of oestrus in the Rasa Aragonesa breed, and negatively correlated with TDA values, which reflect seasonality attributes for ovarian function based on blood progesterone levels.22 Three single nucleotide polymorphisms (G735A, G753A, and C845A) were detected in both Chinese Merino and Prolific Suffolk sheep, and an association study revealed a significant association (P<0.05) between these three SNPs and litter size.53

Thus, it is crucial to further investigate the true involvement of MTNR1A through additional research with larger sample sizes and a wider variety of sheep breeds from around the world, as well as the mechanism of its SNPs in reproductive traits. MTNR1A gene has a significant effect on the reproductive traits of various sheep breeds. Different alleles and genotypes of this gene have been linked to variations in fecundity, timing of sexual maturation, litter size, and body weight. However, there is still a need for further research to confirm these findings and investigate the underlying mechanisms of the gene’s effects.

In terms of practical implications, the identified SNPs in the MTNR1A gene may be useful for selecting and breeding sheep with desirable reproductive traits. For example, ewes with certain genotypes may be preferred for earlier age at first lambing or higher fertility, while rams with specific alleles may have superior reproductive abilities or mating behavior. Additionally, the use of genetic markers and genotyping techniques can aid in the identification and preservation of rare or valuable sheep breeds.

Overall, the information presented underscores the importance of genetic factors in sheep reproduction and highlights the potential for genetic improvement of this trait in various breeds. Further studies are needed to fully understand the mechanisms involved and to optimize breeding strategies for desired outcomes.

Conclusions

MTNR1A SNPs have been extensively studied in previous research, some resulting in an amino acid change. Although three of these connections have a significant relationship with litter size, the majority of previous studies indicate a link between MTNR1A and male reproduction, despite three of these relationships having a strong association with fecundity. Only a few studies have found a correlation between the gene and reproductive attributes, and were not significant. Therefore, it is essential to consider MTNR1A’s impact on both female and male reproduction, as this factor further affects sheep’s litter size. However, this implies that mutations within MTNR1A could be detected in exon 1, a region that was not investigated in earlier works.

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Abuzahra M, Wijayanti D, Effendi MH et al. Association study of melatonin receptor 1 A with litter size in sheep: A review [version 1; peer review: 2 approved with reservations]. F1000Research 2023, 12:900 (https://doi.org/10.12688/f1000research.134890.1)
NOTE: If applicable, it is important to ensure the information in square brackets after the title is included in all citations of this article.
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ApprovedThe paper is scientifically sound in its current form and only minor, if any, improvements are suggested
Approved with reservations A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit.
Not approvedFundamental flaws in the paper seriously undermine the findings and conclusions
Version 1
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PUBLISHED 28 Jul 2023
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Reviewer Report 21 Nov 2023
Wenjing You, Zhejiang University, Hangzhou, China 
Approved with Reservations
VIEWS 16
Abuzahra et al. aimed to review the latest literature on the melatonin receptor 1A (MTNR1A) gene as a potential candidate gene associated with reproductive traits, particularly the litter size trait in sheep, by searching various databases for available literature. While ... Continue reading
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CITE
HOW TO CITE THIS REPORT
You W. Reviewer Report For: Association study of melatonin receptor 1 A with litter size in sheep: A review [version 1; peer review: 2 approved with reservations]. F1000Research 2023, 12:900 (https://doi.org/10.5256/f1000research.147981.r220370)
NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article.
  • Author Response 22 Mar 2024
    mutasem abuzahra, Veterinary Medicine, Universitas Airlangga, Surabaya, Indonesia
    22 Mar 2024
    Author Response
    The focus should be on melatonin and its receptor MTNR1A, whose roles, sources, structure, and characteristics are little described. Additional information regarding these aspects is needed.

    Author: thank you ... Continue reading
COMMENTS ON THIS REPORT
  • Author Response 22 Mar 2024
    mutasem abuzahra, Veterinary Medicine, Universitas Airlangga, Surabaya, Indonesia
    22 Mar 2024
    Author Response
    The focus should be on melatonin and its receptor MTNR1A, whose roles, sources, structure, and characteristics are little described. Additional information regarding these aspects is needed.

    Author: thank you ... Continue reading
Views
13
Cite
Reviewer Report 20 Nov 2023
Ugbo Emmanuel Nnabuike, Department of Applied Microbiology, Faculty of Science, Ebonyi State University, Abakaliki, Ebonyi, Nigeria 
Approved with Reservations
VIEWS 13
The article addressed the purpose of the topic in the area of the function of MTNR 1A in the reproduction performance of animals. I hereby approve for publication. 

I also suggest that the below comments should be ... Continue reading
CITE
CITE
HOW TO CITE THIS REPORT
Nnabuike UE. Reviewer Report For: Association study of melatonin receptor 1 A with litter size in sheep: A review [version 1; peer review: 2 approved with reservations]. F1000Research 2023, 12:900 (https://doi.org/10.5256/f1000research.147981.r220362)
NOTE: it is important to ensure the information in square brackets after the title is included in all citations of this article.
  • Author Response 22 Mar 2024
    mutasem abuzahra, Veterinary Medicine, Universitas Airlangga, Surabaya, Indonesia
    22 Mar 2024
    Author Response
    Topic should be corrected to be (Association of melatonin receptor 1 A with litter size in sheep: A review).
    Author: thank you for suggesting, I have corrected according to your suggestion.
    ... Continue reading
COMMENTS ON THIS REPORT
  • Author Response 22 Mar 2024
    mutasem abuzahra, Veterinary Medicine, Universitas Airlangga, Surabaya, Indonesia
    22 Mar 2024
    Author Response
    Topic should be corrected to be (Association of melatonin receptor 1 A with litter size in sheep: A review).
    Author: thank you for suggesting, I have corrected according to your suggestion.
    ... Continue reading

Comments on this article Comments (0)

Version 2
VERSION 2 PUBLISHED 28 Jul 2023
Comment
Alongside their report, reviewers assign a status to the article:
Approved - the paper is scientifically sound in its current form and only minor, if any, improvements are suggested
Approved with reservations - A number of small changes, sometimes more significant revisions are required to address specific details and improve the papers academic merit.
Not approved - fundamental flaws in the paper seriously undermine the findings and conclusions
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