Desmin increases with high-intensity concentric contractions in humans

Abstract

To investigate the role desmin may play in muscular adaptation to exercise, we measured desmin protein content in the vastus lateralis muscle of seven untrained men in response to 8 weeks of high-intensity cycle training. Training involved 15-s sprints separated by rest for 5 min. Subjects began with four sprints twice per week, and progressed to six sprints three times per week. Peak power was measured before and after training with a 30-s maximal sprint test. Mean power during the first 15 s increased significantly after training (P < 0.05). Desmin and actin protein levels were determined by immunoblotting, from pretraining and posttraining muscle biopsies. Desmin protein levels were increased by 60% after training (P < 0.01), whereas actin protein levels did not change with training. We conclude that the cytoskeletal protein desmin increases in response to a high-tension, concentric-only load consequent to sprint training. Desmin appears to increase as the force generating capacity of the muscle increases. A reinforced desmin cytoskeleton may be necessary for increased force generation by the muscle. Muscle Nerve, 2004