Association of Genetically Predicted BCAA Levels with Muscle Fiber Size in Athletes Consuming Protein.

Elliott C R Hall,Ildus I Ahmetov,Ekaterina A Semenova,Pawel Cięszczyk,Edward V Generozov,Liliya B Andryushchenko,Andrey K Larin,Elvira A Bondareva

doi:10.3390/genes13030397

Abstract

Branched-chain amino acid (BCAA) levels are associated with skeletal muscle cross-sectional area (CSA). Serum BCAA levels are enhanced by whey protein supplementation (WPS), and evidence in clinical populations suggests an association of single nucleotide polymorphisms (SNPs) with BCAA metabolite levels. It is not known whether the same SNPs are associated with the ability to catabolise BCAAs from exogenous sources, such as WPS. The present study investigated whether possessing a higher number of alleles associated with increased BCAA metabolites correlates with muscle fiber CSA of m. vastus lateralis in physically active participants, and whether any relationship is enhanced by WPS. Endurance-trained participants (n = 75) were grouped by self-reported habitual WPS consumption and genotyped for five SNPs (PPM1K rs1440580, APOA5 rs2072560, CBLN1 rs1420601, DDX19B rs12325419, and TRMT61A rs58101275). Body mass, BMI, and fat percentage were significantly lower and muscle mass higher in the WPS group compared to Non-WPS. The number of BCAA-increasing alleles was correlated with fiber CSA in the WPS group (r = 0.75, p < 0.0001) and was stronger for fast-twitch fibers (p = 0.001) than slow-twitch fibers (p = 0.048). Similar results remained when corrected for multiple covariates (age, physical activity, and meat and dairy intake). No correlation was found in the Non-WPS group. This study presents novel evidence of a positive relationship between BCAA-increasing alleles and muscle fiber CSA in athletes habitually consuming WPS. We suggest that a high number of BCAA-increasing alleles improves the efficiency of WPS by stimulation of muscle protein synthesis, and contributes to greater fiber CSA.

Highlights

Essential amino acids (EAAs) stimulate skeletal muscle protein synthesis (MPS) [1], which is crucial for growth and repair [2]
The aim of the present study was to investigate whether possessing a higher number of alleles previously associated with increased Branched-chain amino acid (BCAA) metabolites is related to muscle fiber crosssectional area (CSA) in endurance-trained participants, and whether any relationship is enhanced by Whey protein supplementation (WPS)
This study investigated the polygenic contribution of single nucleotide polymorphisms (SNPs) previously associated with BCAA metabolite levels on muscle fiber CSA in participants with and without WPS

Summary

Introduction

Essential amino acids (EAAs) stimulate skeletal muscle protein synthesis (MPS) [1], which is crucial for growth and repair [2]. EAAs cannot be attained through de novo synthesis and must be acquired through nutritional sources, making dietary EAA provision critical for enhancing post-exercise MPS [3]. Of the EAAs, the branched-chain amino acids (BCAAs; leucine, isoleucine, and valine) initiate MPS by stimulating mRNA translation [1] and prevent muscle protein degradation (MPD) via inhibitory mechanisms relating to the mammalian target of rapamycin (mTOR) pathway [4]. Whey protein supplementation (WPS) is a popular nutritional strategy, principally due to a similar amino acid profile to human skeletal muscle [9], containing ~25% BCAAs [10]

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