Effect of combined aerobic and strength exercises on the regulation of mitochondrial biogenesis and protein synthesis and degradation in human skeletal muscle

We tested the hypothesis that strength exercise after intermittent aerobic exercise might activate signaling pathways that regulate mitochondrial biogenesis (activation of the AMPK and p38 pathways; the expression of PGC-1α, NT-PGC-1α, TFAM, and VEGFA mRNA), protein synthesis (phosphorylation level of p70S6K1^Thr389 and eEF2^Thr56; the expression IGF-1Ea, IGF-1Ec (MGF), and REDD1 mRNA) and proteolysis (phosphorylation level of FOXO1^Ser256; the expression of MURF1, MAFbx, and Myostatin mRNA) in trained skeletal muscles. Nine amateur endurance-trained athletes performed an intermittent aerobic cycling (70 min), followed by one-leg strength exercise (ES: four sets of knee extensions till exhaustion), while the other leg was resting (E). Gene expression and protein level were evaluated in samples from m. vastus lateralis taken before the exercise, 40 min, 5 and 22 h after the aerobic exercise. The phosphorylation level of the АСС^Ser79/222 (an endogenous marker of AMPK activity) and the expression of PGC-1α-related gene TFAM (a marker of mitochondrial biogenesis) were increased after E exercise and did not changed after ES exercise. The expression of PGC-1α and truncated isoform NT-PGC-1α was increased in both legs as well. Insulin concentration in blood was decreased significantly (7.5-fold) after aerobic exercise; the phosphorylation level of FOXO^Ser256 (a regulator of ubiquitin-related proteolysis) was decreased in both legs, which means that it was activated in both types of exercises; at the same time, the expression of the E3-ubiquitin ligase gene MURF1, its target, was only increased after E exercise. Neither aerobic or combined exercise had a significant effect on the regulation of protein synthesis: there were no changes in either expression of IGF-1Ea and IGF-1Ec(MGF) mRNA isoforms or the phosphorylation levels of markers of protein synthesis p70S6K1^Thr389 and eEF2^Thr56. Thus, the performance of strength exercise immediately after aerobic one prevented the activation of mitochondrial biogenesis in endurance-trained muscles: activation of AMPK pathway and the expression of TFAM are decreased, while protein synthesis regulation is not affected. At the same time, the strength exercise inhibited the expression of MURF1 gene (a marker of ubiquitin proteasome system), which was induced by aerobic exercise. We suggest that strength exercise performed immediately after intense intermittent aerobic exercise may have a negative effect on aerobic performance if used chronically.