Redox Status Clinical Trial
Official title:
The Effect of Redox Potential on the Regulation of Satellite Cells and Skeletal Muscle Healing Following Exercise-Induced Muscle Damage
Skeletal muscle stem cells (Satellite cells) are indispensable for muscle growth and remodeling following myofibril damage. Skeletal muscle trauma is present in numerous catabolic conditions, characterized by elevated proteolysis and muscle wasting such as, cancer cachexia and muscular dystrophy, which result in physical capacity impairment and a deteriorated quality of life. Recent studies performed in animals and cell cultures indicate that the increased levels of inflammation and oxidative stress and the reduction of antioxidant defense may blunt the satellite cells response and myogenic programming during muscle healing. However, evidence regarding the effects of redox status on satellite cells and muscle myogenic potential in humans is lacking. Exercise-induced muscle damage bears striking similarities with the aforementioned conditions, which makes it a valuable tool to investigate the redox-dependent regulation of satellite cells during muscle healing. Thus, the objectives of the present study are to examine the effects of redox status perturbation (via N-acetylcysteine administration) on intracellular pathways responsible for satellite cells responses at rest and following aseptic muscle trauma induced by damaging exercise.
A total number of 40-60 males, young individuals aged 18-30 years, will be initially enrolled in the study. Then, participants will be allocated to either a 1) Low Respondents (LR) or a 2) High Respondents (HR) group based on the basal satellite cells content of their vastus lateralis muscle of their dominant leg. In a double-blind, crossover, repeated measures design, participants will consume either Placebo (PLA) or N-acetylcysteine (NAC) before (7-day loading phase), on exercise day and for 8 consecutive days following a single bout of intense exercise (300 eccentric contractions at 30 deg/sec in an isokinetic dynamometer). In both conditions, blood samples and muscle biopsies will be collected at baseline, before the exercise protocol and at 2- and 8-days post-exercise. Muscle performance and soreness will also be assessed at the same time points. Before the first trial, participants' dietary intake (via diet recalls) and physical activity (via accelerometry) will be analyzed and nutritional plans will be provided to participants in order to normalize their antioxidant and protein intake. A 4-week washout period will be implemented between trials. Blood samples will be analyzed for inflammation and oxidative stress markers. Muscle samples will be analyzed for satellite cells responses and myogenic potential, protein levels of intracellular signaling proteins, muscle thiols and antioxidant enzymes activity. ;
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