ABSTRACT
PURPOSE: We determined and compared the magnitude of changes in resting plasma myostatin and IGF-1, muscle strength, and size in response to whole body or local muscle resistance training in healthy men. METHODS: Volunteers performed high-intensity resistance exercise of major muscle groups of the whole body (N = 11), or of the elbow flexors only (N = 6), twice per week for 10 wk. Strength was assessed by elbow flexor one-repetition maximum (1-RM) and repetitions at 80% of 1-RM, muscle cross-sectional area by MRI, and plasma IGF-1 by RIA and myostatin by Western analyses, before and after the training program. RESULTS: In subjects of both groups, elbow flexor 1-RM and cross-sectional area increased (P = 0.05) by 30 +/- 8% (mean +/- SD) and 12 +/- 4%, respectively. Individual changes in myostatin ranged from 5.9 to -56.9%, with a mean decrease of 20 +/- 16%, whereas IGF-1 did not change from pre- to posttraining. There were no significant differences in any of the responses of the subjects between the two training programs. CONCLUSION: Myostatin may play a role in exercise-induced increases in muscle size, its circulating levels decreasing with resistance training in healthy men. Exercise of the whole body versus the elbow flexors alone did not provide a supplementary stimulus in altering resting plasma IGF-1 or myostatin, or in increasing muscle strength or size. Thus, by default, growth factor responses local to the muscle may be more important than circulating factors in contributing to muscle hypertrophy with resistance training.