Impact of exercise intervention on IGF-1 signaling related to muscle regeneration and physical performance in aged mice

Aging encompasses the natural processes of birth, growth, and aging, during which the functional ability of muscles gradually decreases, leading to the loss of muscle size and reduced exercise performance known as sarcopenia. This condition is closely associated with weakness, osteoporosis, and degenerative diseases, increasing the risk of falls, fractures, metabolic diseases, and mortality due to limitations in physical performance among the elderly. This study investigated the effects of exercise intervention on biological markers related to skeletal muscle mass and functions in conjunction with aging. At age of four or twenty, the C57BL/6 mice were assigned to Young control (Y-Con, n = 10) or exercise training (Y--Exe, n = 10), and Aged control (A-Con, n=10) or exercise training (A-Exe, n = 10). Exercise intervention was performed on a rodent motor-driven treadmill with a frequency of 5 days per week for 8 weeks. As a consequence, exercise intervention in mice resulted in positive changes in IGF-1 signaling and muscle phenotype compared to mice that did not undergo exercise intervention, specifically showing prominent effects in the A-Exe group compared to the A-Con group. The mitigating effects of exercise intervention on age-related skeletal muscle dysfunction were accompanied by enhanced exercise performance and muscle function, as assessed by grip strength and the rotarod test. The current findings support previous studies that have reported the positive effect of exercise intervention in alleviating age-related declines in exercise performance and muscle function in older adults.