Effect of Oral L-arginine 3.32 g a Day on Oxidative Stress Influencing Beta Cell Function and Insulin Resistance. (L-BIOARG)

Recent studies have demonstrated beneficial effects of the use of L-arginine supplementation as a nutrient treatment in diabetes and prediabetes, with documented beneficial effects on β- cell function and insulin sensitivity .

A long-term follow-up randomized clinical trial also demonstrated a reduced cumulative incidence of type 2 diabetes among subjects at high risk of developing the disease . The same study reported a significantly AOPP levels reduction at 18 months in L-arginine arm compared to placebo and this effect was maintained through the 108 months of follow up. Indeed, AOPP levels decreased by 26.1% at 18 months, remaining lower during the post intervention period in L-arginine group.

However, in this study, AOPP levels were firstly evaluated at baseline and then only 18 months after starting treatment. Therefore, to date, no data are currently available regarding the effects of a short-term treatment on AOPPs levels. In addition, data in vivo on rats suggest a rapid improvement in antioxidant defense and in total antioxidative capacity in plasma and liver after a 14 days treatment period with L-arginine.

Advanced oxidation protein products are formed during oxidative stress by myeloperoxidase action in activated neutrophils through chloraminated oxidants production. AOPPs molecular structure is similar to advanced glycation endproducts (AGEs) as they have similar biological activities. Precisely, AOPPs exert induction of proinflammatory cytokines and adhesion molecules maintaining inflammatory pathways activated and favoring pro-oxidant state. In addition, many reports highlighted a strict correlation between AOPPs and glucose metabolism suggesting being an early marker of diabetes mellitus and metabolic syndrome. The prooxidant-antioxidant index (PAI) has been proposed as possible marker of MetS. It is expressed as the ratio between the AOPP levels and the total radical-trapping antioxidant capacity (TRAP), a surrogate for the total antioxidant defenses in the plasma. An interesting study by Venturini et al. evidenced the relationship between AOPPs and MetS also highlighting that PAI progressively increased (P <0.05) according to the number of MetS components, whereas AOPPs and total radical-trapping antioxidant parameter increased (P <0.05) when 5 components were compared with 3 and 4 components .

Lipid peroxidation products such as malondialdehyde (MDA), and 4-hydroxynonenal (HNE) have been reported to be highly related to inflammation and MetS. These molecules are considered important biomarkers of oxidative stress because of the high susceptibility of polyunsaturated fatty acids-rich cell membranes to lipid peroxidation when exposed to ROS or other free radicals . A positive correlation has been described by several studies among obesity, IR, MetS, glycaemic control and MDA and HNE levels.

Regarding the antioxidant enzymes, a study by Lang et al. on rats fed with L-arginine for 14 days demonstrated a significant stimulation in GSH synthesis enzymes, CAT, SOD and GPx activity and mRNA expression enhancing the total antioxidative capacity in plasma (T-AOC or TRAP) and in the liver strongly suggesting that L-arginine oral administration can ameliorate antioxidant defenses.

To conduct this study, the investigators selected a L-arginine dosage of 3,32 g/day, based on evidence that this dosage was associated to an improvement of the inflammatory response and beneficial modulating of oxidative stress in favor of an antioxidant state.