Table 2.
Selected redox homoeostasis processes associated with exercise and ageing proposed to play an important role in muscle homoeostasis
| Process | Ageing-associated consequences | Proposed mechanism |
|---|---|---|
| Muscle contraction | Increased oxidation of contractile proteins; disrupted fatty acid oxidation due to accumulation of dysfunctional mitochondria | Changes in mitochondrial activity (Gerhart-Hines et al. 2007; Carnio et al. 2014) |
| Disrupted autophagy resulting in defective regeneration and myofibre atrophy | Activation of autophagy (Sandri 2010; Tang and Rando 2014; Garcia-Prat et al. 2016) | |
| Neuromuscular function | Disrupted redox balance resulting in myofibre atrophy, NMJ degeneration | SOD1 activity (Sakellariou et al. 2014a) |
| Satellite cell function | Disrupted protection against excessive ROS and DNA damage resulting in disrupted quiescence of satellite cells and their niche resulting in defective regeneration | Activity of antioxidant enzymes (Pallafacchina et al. 2010) |
| Senescence | Oxidative stress and deterioration in muscle regeneration satellite cell senescence | ROS production in satellite cells (Garcia-Prat et al. 2016) |