2018
DOI: 10.1096/fj.201701403rrr
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Coordinated regulation of skeletal muscle mass and metabolic plasticity during recovery from disuse

Abstract: Skeletal muscle regeneration after disuse is essential for muscle maintenance and involves the regulation of both mass- and metabolic plasticity-related processes. However, the relation between these processes during recovery from disuse remains unclear. In this study, we explored the potential interrelationship between the molecular regulation of muscle mass and oxidative metabolism during recovery from disuse. Molecular profiles were measured in biopsies from the vastus lateralis of healthy men after 1-leg c… Show more

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Cited by 9 publications
(3 citation statements)
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“…Specifically, we find 4–10‐fold greater Bnip3 in female mice unloaded for 24–48 h compared with male mice whom had marginal differences in Bnip3 between unloading conditions. Many prior works have found increases in BNIP3 during the early phases of muscle atrophy, 32–34 which then appears to reverse to decreased BNIP3 with prolonged durations (>2 weeks) of disuse 27 . Yet to our knowledge, no study has included markers of mitophagy/autophagy content in both male and female rodents during these early phases of disuse.…”
Section: Discussionmentioning
confidence: 95%
“…Specifically, we find 4–10‐fold greater Bnip3 in female mice unloaded for 24–48 h compared with male mice whom had marginal differences in Bnip3 between unloading conditions. Many prior works have found increases in BNIP3 during the early phases of muscle atrophy, 32–34 which then appears to reverse to decreased BNIP3 with prolonged durations (>2 weeks) of disuse 27 . Yet to our knowledge, no study has included markers of mitophagy/autophagy content in both male and female rodents during these early phases of disuse.…”
Section: Discussionmentioning
confidence: 95%
“…The decrease in muscle protein synthesis caused by disuse muscle atrophy leads to the reduction in muscle mass and strength. However, this can be restored through physical activity and maintaining an active lifestyle, especially in younger individuals (27,28).…”
Section: Epidemiology and Clinical Presentation Comparisonmentioning
confidence: 99%
“…Skeletal muscle can modify its phenotype to adapt to different external stimuli, such as disuse (Goldspink et al, 1986;Kneppers et al, 2019), hypoxia (Baresic et al, 2014;Nguyen et al, 2016), physical exercise (Yan et al, 2012;Joseph et al, 2016), among others (Gundersen, 2011), in a process known as muscle plasticity. According to this, different muscles of the body differ in their phenotype depending on the function they perform, expressing different isoforms of contractile proteins and metabolic enzymes.…”
Section: Introductionmentioning
confidence: 99%