Cellular mechanism of immobilization-induced muscle atrophy: A mini review

被引:8
|
作者
Ji, Li Li [3 ,1 ]
Ye, Dongwook [1 ]
机构
[1] Univ Minnesota Twin Cities, Sch Kinesiol, Lab Physiol Hyg & Exercise Sci, Minneapolis, MN USA
来源
SPORTS MEDICINE AND HEALTH SCIENCE | 2019年 / 1卷 / 01期
关键词
Atrophy; Immobilization; Mitochondria; Muscle; Signaling; FOXO TRANSCRIPTION FACTORS; EXERCISE-INDUCED HORMESIS; SKELETAL-MUSCLE; UBIQUITIN LIGASE; PGC-1-ALPHA OVEREXPRESSION; MITOCHONDRIAL BIOGENESIS; EXPRESSION; MITOPHAGY; PROTEIN; AUTOPHAGY;
D O I
10.1016/j.smhs.2019.08.004
中图分类号
G8 [体育];
学科分类号
04 ; 0403 ;
摘要
It is well-established that regular contraction maintains morphological and functional integrity of skeletal muscle, whereas rigorous exercise training can upregulate muscle metabolic and contractile function. However, when muscles stop contraction, such as during immobilization (IM) and denervation, withdrawal of IGF/Akt/mTOR signaling allows FoxO-controlled protein degradation pathways to dominate. Mitochondria play an important role in regulating both protein synthesis and degradation via several redox sensitive signaling pathways such as mitochondrial biogenesis, fusion and fission dynamics, ubiquitin-proteolysis, autophagy/mitophagy, and apoptosis. During prolonged IM, downregulation of PGC-1 alpha and increased mitochondrial oxidative damage facilitate fission protein and inflammatory cytokine production and activate mitophagic process, leading to a vicious cycle of protein degradation. This "mitostasis theory of muscle atrophy" is the opposite pathway of hormesis, which defines enhanced muscle function with contractile overload. The demonstration that PGC-1 alpha overexpression via transgene or in vivo DNA transfection can successfully restore mitochondrial homeostasis and reverse myocyte atrophy supports such a proposition. Understanding the mechanism governing mitostasis can be instrumental to the treatment of muscle atrophy associated with bedrest, cancer cachexia and sarcopenia.
引用
收藏
页码:19 / 23
页数:5
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