L-arginine supplementation and risk factors of cardiovascular diseases in healthy men: a double-blind randomized clinical trial

Introduction

High blood pressure is now considered one of the main challenges facing human health and is one of the most important risk factors for cardiovascular disease¹. It is predicted that the incidence of cardiovascular disease and hypertension will reach in about 30% of the world population by the year 2025. Iran is the fifth country in the world in terms of having high blood pressure related diseases. Approximately 6.6 million with an age range of 25–64 years have high blood pressure and an estimated 12 million people in the same age range are at increased risk of hypertension and cardiovascular disease^2,3. One of the major mechanisms of cardiovascular disease is endothelial dysfunction. Dysfunction, which can increase the permeability of the plasma components, especially low-density lipoproteins (LDL) and deposition in the sub endothelial space, can be considered one of the earliest events that occur in atherosclerosis^4,5. With the high prevalence of hypertension and cardiovascular diseases and complications, and high costs that they impose on society, presentation of new strategies for prevention and control of these diseases, as well as finding efficient and effective complementary therapies with few instances of complications is very important⁶.

L-arginine is a semi-essential amino acid that is used by all cells⁷. This amino acid, on average, constitutes 7–5% of the total amino acids in the normal human diet and is absorbed in the jejunum and ileum of the small intestine. L-arginine is used by the body in protein synthesis, urea cycle, tissue repairing and immune cell function^8,9. Arginine is converted to nitric oxide and citrulline, which acts as a vasodilator. There are three isoforms of nitric oxide synthase (NOS), these isoforms need oxygen, arginine and Tetrahydrobiopterin 4 (BH4) and NADPH (nicotine amide adenine di nucleotides phosphate) for the synthesis of nitric oxide¹⁰. In a trial conducted on Zucker rats, L-arginine reduced adipose tissue¹¹.

Recently, arginine-rich foods were shown to be inversely associated with endothelial dysfunction in hypercholesterolemia patients¹². It has also been shown that long-term administration of L-arginine reduces cardiovascular complications¹³. It is still not entirely clear that a low dose of L-arginine has a positive effect. Nitric oxide has an important function in fat metabolism¹⁴. Physiological levels of nitric oxide (25 to 35 µmol) increased oxidation of glucose and fat and prevented the synthesis of glucose and triglycerides¹⁵. Several amino acids, particularly arginine, glutamine, leucine and phenylalanine directly stimulate the production of insulin from pancreatic beta cells¹⁶. Other possible actions associated with L-arginine include lowering blood pressure and homocysteine levels, increasing lean body mass and decreasing fat mass and adiponectin and endothelin¹⁷. In one study conducted by Sato et al., infusion of L-arginine reduced blood pressure in patients with essential hypertension but was not effective in patients with a history of dangerously high blood pressure¹⁸.

In a study conducted on healthy volunteers, supplementing with L-arginine for 3 days in a week improved glucose metabolism^19,20. In a study, Lucotti et al. demonstrated that prolonged treatment with L-arginine in patients with type 2 diabetes caused a significant decrease in blood sugar²¹. In general, a number of studies on the beneficial effects of L-arginine have been shown to reduce blood pressure²². But in some other studies, L-arginine had no effect on blood pressure^23,24. In previous studies, the effects of long-term, low L-arginine intake have not been examined.

To best of our knowledge, no study has evaluated the effects of 2g of L-arginine per day on cardiovascular risk factors. Based on the L-arginine dosage used in Elam et al.²⁵, and based on their conclusion that increasing the duration of L-arginine supplementation can be more effective than increasing the dosage of L-arginine, this clinical trial aimed to evaluate the effects of 45 days L-arginine supplementation (2g per day) on lipid profiles, fasting blood glucose and blood pressure in male athletes. In the present study, we hypothesized that 2g per day L-arginine supplementation during 45 days provides better outcomes on cardiovascular risk factors than other dosages used in previous studies.

Therefore, in this study, we examined the effect of L-arginine supplementation on lipid profile, blood pressure and fasting blood sugar (glucose; FBS) in healthy men.

Material and methods

Results

Fifty-six of the subjects fulfilled the inclusion criteria and participated in the study, but four dropped out the study with these reasons: two due to dermatitis and one for digestive problems in the intervention group and one in the placebo group because of personal problems. Therefore, 52 participants [L-arginine (n = 25) and placebo (n = 27)] completed the trial (Figure 1). Final statistical analyses were performed on the 52 participants. The rate of compliance in our study was high, such that approximately 100% of capsules were taken throughout the study in both groups. General characteristics of participants who received either L-arginine supplements or placebo are illustrated in Table 1. No significant differences were found in weight, BMI, physical activity, energy or protein intake between both groups (Table 1). Because L-arginine levels in serum were not measured during the study, there was no possibility of getting correlation between arginine and age, BMI and PA.

Figure 1. Schematic diagram of the study; Individuals in the L-arginine group received capsule containing 2000 mg of L-arginine per day during the study; those in the placebo group received 2000 mg placebo capsule at the same times.

The differences between the two groups in dietary intake during the trial are presented in Table 2. Dietary intake of energy, protein, carbohydrate, fat and arginine during study were not different between L-arginine and placebo groups.

Baseline and after intervention values of FBS, blood pressure and lipid profile are presented in (Table 3). In this study, supplementation of 2000 mg L-arginine per day compared with placebo (2000 mg maltodextrin) for 45 days were given to participants. Levels of FBS, triglycerides, total cholesterol, LDL-c and HDL-c in L-arginine supplemented group compared with the placebo group showed statistically significant differences (P<0.05). The systolic and diastolic blood pressure before and after the intervention compared to the control group showed no significant difference (P>0.05) (Table 3).

Discussion

In this study, the effect of L-arginine supplementation on blood glucose, blood pressure and lipid profile in healthy male subjects between 18 and 35 years were examined. In the intervention group of subjects receiving 2000 mg daily of L-arginine pills for 45 days and the control group participants 2000 mg daily placebo pills (maltodextrin) consumed. The results showed that L-arginine supplementation significantly decreased the levels of FBS, triglycerides, LDL and cholesterol and a significant increase in HDL levels compared to the control group (P<0.05). However, there was no significant effect on systolic and diastolic blood pressure (P>0.05) (Table 3).

In some studies, healthy individuals exhibited improved glucose metabolism after three to seven days of L-arginine supplementation^19,28, a result that is in line with our study. Lucotti et al. demonstrated that L-arginine supplementation reduces blood sugar in patients with diabetes, which also parallels with our study, although our study was conducted on healthy people²¹. There is evidence that long-term L-arginine intake can increase insulin sensitivity and improve the glycemic indices²⁹. It seems that an acute dose of L-arginine affects the levels of nitric oxide. In a study conducted by Natarajan et al., supplementation with L-arginine improves glycemic sensitivity in patients with diabetes³⁰. In another study Mohamadian and colleagues demonstrated that nitric oxide precursors can improve blood glucose and glycosylated hemoglobin levels in Wistar rats with diabetes through antioxidant activity³¹.

In a study conducted on people with type 2 diabetes, L-arginine supplementation reduced systolic and diastolic blood pressure, results that are inconsistent with our results³². However, a study by Lerman et al., found that L-arginine supplementation over 6 months had no significant effect on systolic and diastolic blood pressure in humans, which is in line with our study²⁴. Lekakis and colleagues found similar results where a daily 6 g oral dose of L-arginine did not have a significant effect on blood pressure of patients with essential hypertension²³.

Siani et al. lowering blood sugar, lowering blood pressure, increasing HDL, cholesterol and triglycerides and decreased following administration of L-arginine supplementation reported, that the results of this study agree with our study¹⁹. In a study conducted in 2008 by Boger et al., supplementation with L-arginine improved the function of the cardiovascular system in patients on hemodialysis³². Several studies that were carried out on humans and male C57BL/6 mice have shown that L-arginine supplementation may be considered a new treatment for metabolic disorders and also has an effect of lowering blood pressure, adipose tissue and weight and improves insulin sensitivity^33–35. In a study conducted by Martina et al. L-arginine supplementation of 2.1 g per day in combination with N-acetylcysteine at a dose of 2.1 g per day for 6 months has been shown to improve endothelial function³⁶.

In one study, M.A. Nascimento et al. showed that L-arginine supplementation in overweight men for 7 days reduced LDL and increased HDL, results that agree with the results of our study. However, unlike our findings, they did not see any effect on the levels of triglycerides and total cholesterol. These differing results may be due to the short duration of their study, as well as the high BMI and average age of their participants (46 ± 5)³⁷.

Mechanisms activated by L-arginine supplementation are still not fully understood. L-arginine can affect the molecular and cellular levels via complex mechanisms. Studies on multiple animal models and in a limited number of human subjects have shown that L-arginine can stimulate the development of brown adipose tissue mitochondria and induce the regulation of gene expression³⁸. Another study reported that L-arginine supplementation decreased blood pressure and total homocysteine levels³⁹. Indeed, nitric oxide is produced from arginine as an endothelium relaxation factor, which activates guanylyl cyclase. Guanylyl cyclase converted guanylyl triphosphate to cyclic guanylyl monophosphate which relaxes the smooth muscles that can cause a decrease in blood pressure^40,41. Although the results of many studies are in line with our study, more are needed to determine the effects of differing L-arginine doses on CVD risk factors.

Some limitations of this study should be considered. First, we could not examine the effects of L-arginine supplementation on inflammation factors including tumor necrosis factor alpha (TNF-α) C-reactive protein (CRP) and interleukin-6 as CVD risk factors. Second, this study was conducted on males and it is not clear the effects of L-arginine supplementation on CVD risk factors on females. Third, in this study, we just enrolled healthy subjects and we did not examine the effects of L-arginine on patients with CVD.

Conclusion

The intake of 2 g of L-arginine per day, for 45 days, could improve the lipid profile and FBS in male athletes, but has no effect on systolic and diastolic blood pressure. Further studies based on determination of L-arginine dose and with a larger sample size are needed to shed light on our findings.

Data availability

Figshare: http://dx.doi.org/10.6084/m9.figshare.1265047⁴¹