Exhaustive Exercise And Post-Exercise Protein Plus Carbohydrate Supplementation Affect Plasma And Urine Concentrations Of Sulfur Amino Acids, The Ratio Of Methionine To Homocysteine And Glutathione In Elite Male Cyclists

Plasma and tissue sulfur amino acid (SAA) availability are crucial for intracellular methylation reactions and cellular antioxidant defense, which are important processes during exercise and in recovery. In this randomized, controlled crossover trial among eight elite male cyclists, we explored the effect of exhaustive exercise and post-exercise supplementation with carbohydrates and protein (CHO+PROT) vs. carbohydrates (CHO) on plasma and urine SAAs, a potential new marker of methylation capacity (methionine/total homocysteine ratio [Met/tHcy]) and related metabolites. The purpose of the study was to further explore the role of SAAs in exercise and recovery. Athletes cycled to exhaustion and consumed supplements immediately after and in 30 min intervals for 120 min post-exercise. After similar to 18 h recovery, performance was tested in a time trial in which the CHO+PROT group cycled 8.5% faster compared to the CHO group (41:53 +/- 1:51 vs. 45:26 +/- 1:32 min, p < 0.05). Plasma methionine decreased by similar to 23% during exhaustive exercise. Two h post-exercise, further decline in methionine had occured by similar to 55% in the CHO group vs. similar to 33% in the CHO+PROT group (p(group) x (time) < 0.001). The Met/tHcy ratio decreased by similar to 33% during exhaustive exercise, and by similar to 54% in the CHO group vs. similar to 27% in the CHO+PROT group (p(group) x (time) < 0.001) post-exercise. Plasma cystathionine increased by similar to 72% in the CHO group and similar to 282% in the CHO+PROT group post-exercise (p(group) x (time) < 0.001). Plasma total cysteine, taurine and total glutathione increased by 12% (p = 0.03), 85% (p < 0.001) and 17% (p = 0.02), respectively during exhaustive exercise. Using publicly available transcriptomic data, we report upregulated transcript levels of skeletal muscle SLC7A5 (log(2) fold-change: 0.45, FDR:1.8(e-07)) and MAT2A (log(2) fold-change: 0.38, FDR: 3.4(e-0.7)) after acute exercise. Our results show that exercise acutely lowers plasma methionine and the Met/tHcy ratio. This response was attenuated in the CHO+PROT compared to the CHO group in the early recovery phase potentially affecting methylation capacity and contributing to improved recovery.