Journal
ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS
Volume 718, Issue -, Pages -Publisher
ELSEVIER SCIENCE INC
DOI: 10.1016/j.abb.2022.109150
Keywords
Skeletal muscle; Plantar mechanical stimulation; PGC1 alpha; Fatigue; Hindlimb unloading
Categories
Funding
- Basic Research Institutional Programme of the IBMP, RAS
- RSF [21-75-00063]
- [N? 21-75-00063]
- Russian Science Foundation [21-75-00063] Funding Source: Russian Science Foundation
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Recent studies have shown that support afferentation plays a key role in controlling postural muscle function, structure and phenotype. Lack of support afferentation can negatively affect muscle performance and life quality, while simulating support afferentation can maintain muscle fiber characteristics.
Support afferentation in recent years was shown to be a key physiological stimulus controlling postural muscle function, structure and phenotype. Lack of support afferentation under various types of muscle disuse leads to a decline of size and percentage of slow-type fatigue-resistant muscle fibers, which can negatively affect muscle performance and life quality. In this study we simulated support afferentation during rat hindlimb unloading and investigated its effect on postural soleus muscle functional properties and signaling. Plantar mechanical stimulation prevented the unloading-induced muscle fatigue increase, maintained the level of mitochondrial DNA copy number and the percent of slow-type muscle fibers and partially prevented the increase of CpG methylation inpgc 1 alpha promoter region and decline in myonuclear content of several transcriptional activators of slow myosin and PGC1 alpha expression. So, support afferentation under hindlimb suspension leads to maintaining of a slow-twitch oxidative and fatigue-resistant soleus muscle fibers phenotype.
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