l-Leucine Increases Skeletal Muscle IGF-1 but Does Not Differentially Increase Akt/mTORC1 Signaling and Serum IGF-1 Compared to Ursolic Acid in Response to Resistance Exercise in Resistance-Trained Men

OBJECTIVE

Ursolic acid administration following resistance exercise increases mammalian target of rapamycin complex 1 (mTORC1) activity and skeletal muscle IGF-1 concentration in murines in a manner similar to l-leucine yet remains unexamined in humans. This study examined serum and skeletal muscle insulin-like growth factor-1 (IGF-1) and Akt/mTORC1 signaling activity following ingestion of either ursolic acid or l-leucine immediately after resistance exercise.

METHODS

Nine resistance-trained men performed 3 lower-body resistance exercise sessions involving 4 sets of 8-10 repetitions at 75%-80% one repetition maximum (1-RM) on the angled leg press and knee extension exercises. Immediately following each session, participants orally ingested 3 g cellulose placebo (PLC), l-leucine (LEU), or ursolic acid (UA). Blood samples were obtained pre-exercise and at 0.5, 2, and 6 hours postexercise. Muscle biopsies were obtained pre-exercise and at 2 and 6 hours postexercise.

RESULTS

Plasma leucine increased in LEU at 2 hours postexercise compared to PLC (p = 0.04). Plasma ursolic acid increased in UA at 2 h and 6 hours postexercise compared to PLC and LEU (p < 0.003). No significant differences were observed for serum insulin (p = 0.98) and IGF-1 (p = 0.99) or skeletal muscle IGF-1 receptor (IGF-1R; p = 0.84), Akt (p = 0.55), mTOR (p = 0.09), and p70S6K (p = 0.98). Skeletal muscle IGF-1 was significantly increased in LEU at 2 hours postexercise (p = 0.03) and 6 hours postexercise (p = 0.04) compared to PLC and UA.

CONCLUSION

Three grams of l-leucine and ursolic acid had no effect on Akt/mTORC1 signaling or serum insulin or IGF-1; however, l-leucine increased skeletal muscle IGF-1 concentration in resistance-trained men.

Effect of resistance exercise intensity on the expression of PGC-1α isoforms and the anabolic and catabolic signaling mediators, IGF-1 and myostatin, in human skeletal muscle

The purpose of this study was to investigate the acute messenger (mRNA) expression of the peroxisome proliferator-activated receptor γ coactivator-1α (PGC-1α) isoforms, insulin-like growth factor-1Ea (IGF-1Ea), and myostatin in response to 2 resistance exercise intensities. In a uniform-balanced, crossover design, 10 participants performed 2 separate testing sessions involving a lower body resistance exercise component consisting of a lower intensity (50% of 1-repetition maximum; 1RM) protocol and a higher intensity (80% of 1RM) protocol of equal volumes. Muscle samples were obtained at before exercise, 45 min, 3 h, 24 h, and 48 h postexercise. Resistance exercise did not alter total PGC-1α mRNA expression; however, distinct responses of each PGC-1α isoform were observed. The response of each isoform was consistent between sessions, suggesting no effect of resistance exercise intensity on the complex transcriptional expression of the PGC-1α gene. IGF-1Ea mRNA expression significantly increased following the higher intensity session compared with pre-exercise and the lower intensity session. Myostatin mRNA expression was significantly reduced compared with pre-exercise values at all time points with no difference between exercise intensity. Further research is needed to determine the effects of the various isoforms of PGC-1α in human skeletal muscle on the translational level as well as their relation to the expression of IGF-1 and myostatin.

Acute Myosin Heavy Chain Isoform mRNA Expression in Response to Two Resistance Exercise Intensities With Equal Volume Load in Resistance-Trained Men

The purpose of this study was to determine if resistance exercise intensity, in the context of equal volume load, differentially affected myosin heavy chain (MHC) isoform messenger RNA (mRNA) expression in resistance-trained men. In a crossover, uniform-balanced design, 10 male participants (23.7 ± 2.8 years, 178.8 ± 5.9 cm, 85.9 ± 9.2 kg) completed 2 lower-body resistance exercise sessions of different intensities with equal volume load. For the higher-intensity exercise session, participants performed 5 sets of 6 repetitions at 80% of 1 repetition maximum (1RM). For the lower-intensity exercise session, participants performed 3 sets of 16 repetitions at 50% of 1RM. Muscle samples from the vastus lateralis were acquired before exercise (PRE), 45 minutes postexercise (45MINPE), 3 hours postexercise (3HRPE), 24 hours postexercise (24HRPE), and 48 hours postexercise (48HRPE). Statistical analyses of mRNA expression were performed using separate 2 × 5 two-way repeated-measures analyses of variance for each criterion variable (p ≤ 0.05). There were no statistically significant interactions between intensity and time. Likewise, there were no significant differences between exercise intensity in MHC expression. Expression of mRNA for all MHC isoforms decreased at all postexercise time points, except 3HRPE (p = 0.051), compared with PRE following both exercise bouts (p ≤ 0.05). The results of this study found no difference in mRNA expression of MHC isoforms as a function of resistance exercise intensity. In addition, in contrast to results found in previous studies of untrained men, MHC mRNA expression seems to decrease in response to acute resistance exercise in previously resistance-trained men.