4.7 Article

Chronic Alcohol Dysregulates Skeletal Muscle Myogenic Gene Expression after Hind Limb Immobilization in Female Rats

Journal

BIOMOLECULES
Volume 10, Issue 3, Pages -

Publisher

MDPI
DOI: 10.3390/biom10030441

Keywords

ethanol; ovariectomy; immobilization; recovery; regeneration; inflammation; ovarian hormone loss

Funding

  1. Department of Physiology, LSUHSC-NO
  2. National Institute on Alcohol Abuse and Alcoholism, National Institutes of Health [K01AA02449403]

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Alcohol use and aging are risk factors for falls requiring immobilization and leading to skeletal muscle atrophy. Skeletal muscle regeneration is integral to post-immobilization recovery. This study aimed to elucidate the effects of alcohol and ovarian hormone loss on the expression of genes implicated in muscle regeneration. Three-month-old female rats received an ovariectomy or a sham surgery, consumed an alcohol-containing or control diet for 10 weeks, were subjected to unilateral hind limb immobilization for seven days, and finally were allowed a three (3d)- or 14 (14d)-day recovery. Immobilization decreased the quadriceps weight at 3d and 14d, and alcohol decreased the quadriceps weight at 14d in the nonimmobilized hind limb (NI). At 3d, alcohol decreased gene expression of myoblast determination protein (MyoD) in the immobilized hind limb (IMM) and myocyte enhancer factor (Mef)2C and tumor necrosis factor (TNF)alpha in NI, and ovariectomy increased MyoD and decreased TNF alpha expression in NI. At 14d, alcohol increased the gene expression of Mef2C, MyoD, TNF alpha, and transforming growth factor (TFG)beta in IMM and decreased monocyte chemoattractant protein (MCP)1 expression in NI; ovariectomy increased TNF alpha expression in NI, and alcohol and ovariectomy together increased Mef2C expression in NI. Despite increased TGF beta expression, there was no concomitant alcohol-mediated increase in collagen in IMM at 14d. Overall, these data indicate that alcohol dysregulated the post-immobilization alteration in the expression of genes implicated in regeneration. Whether alcohol-mediated molecular changes correspond with post-immobilization functional alterations remains to be determined.

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