Skeletal muscle in aged mice reveals extensive transformation of muscle gene expression

I-Hsuan Lin, Junn-Liang Chang, Kate Hua, Wan-Chen Huang, Ming-Ta Hsu, Yi-Fan Chen

研究成果: 雜誌貢獻文章

摘要

Background:Aging leads to decreased skeletal muscle function in mammals and is associated with a progressive loss of muscle mass, quality and strength. Age-related muscle loss (sarcopenia) is an important health problem associated with the aged population.Results:We investigated the alteration of genome-wide transcription in mouse skeletal muscle tissue (rectus femoris muscle) during aging using a high-throughput sequencing technique. Analysis revealed significant transcriptional changes between skeletal muscles of mice at 3 (young group) and 24 (old group) months of age. Specifically, genes associated with energy metabolism, cell proliferation, muscle myosin isoforms, as well as immune functions were found to be altered. We observed several interesting gene expression changes in the elderly, many of which have not been reported before.Conclusions:Those data expand our understanding of the various compensatory mechanisms that can occur with age, and further will assist in the development of methods to prevent and attenuate adverse outcomes of aging.
原文英語
頁(從 - 到)55
期刊BMC Genetics
19
發行號1
DOIs
出版狀態已發佈 - 八月 8 2018

指紋

Skeletal Muscle
Gene Expression
Muscles
Sarcopenia
Quadriceps Muscle
Myosins
Energy Metabolism
Mammals
Protein Isoforms
Age Groups
Cell Proliferation
Genome
Health
Population
Genes

Keywords

  • Aging
  • Skeletal muscle
  • Cardiac-related genes
  • RNA sequencing analysis
  • Muscle fibers
  • Defects on differentiation

引用此文

Skeletal muscle in aged mice reveals extensive transformation of muscle gene expression. / Lin, I-Hsuan; Chang, Junn-Liang; Hua, Kate; Huang, Wan-Chen; Hsu, Ming-Ta; Chen, Yi-Fan.

於: BMC Genetics, 卷 19, 編號 1, 08.08.2018, p. 55.

研究成果: 雜誌貢獻文章

Lin, I-Hsuan ; Chang, Junn-Liang ; Hua, Kate ; Huang, Wan-Chen ; Hsu, Ming-Ta ; Chen, Yi-Fan. / Skeletal muscle in aged mice reveals extensive transformation of muscle gene expression. 於: BMC Genetics. 2018 ; 卷 19, 編號 1. 頁 55.
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abstract = "BACKGROUND: Aging leads to decreased skeletal muscle function in mammals and is associated with a progressive loss of muscle mass, quality and strength. Age-related muscle loss (sarcopenia) is an important health problem associated with the aged population.RESULTS: We investigated the alteration of genome-wide transcription in mouse skeletal muscle tissue (rectus femoris muscle) during aging using a high-throughput sequencing technique. Analysis revealed significant transcriptional changes between skeletal muscles of mice at 3 (young group) and 24 (old group) months of age. Specifically, genes associated with energy metabolism, cell proliferation, muscle myosin isoforms, as well as immune functions were found to be altered. We observed several interesting gene expression changes in the elderly, many of which have not been reported before.CONCLUSIONS: Those data expand our understanding of the various compensatory mechanisms that can occur with age, and further will assist in the development of methods to prevent and attenuate adverse outcomes of aging.",
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AU - Chang, Junn-Liang

AU - Hua, Kate

AU - Huang, Wan-Chen

AU - Hsu, Ming-Ta

AU - Chen, Yi-Fan

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AB - BACKGROUND: Aging leads to decreased skeletal muscle function in mammals and is associated with a progressive loss of muscle mass, quality and strength. Age-related muscle loss (sarcopenia) is an important health problem associated with the aged population.RESULTS: We investigated the alteration of genome-wide transcription in mouse skeletal muscle tissue (rectus femoris muscle) during aging using a high-throughput sequencing technique. Analysis revealed significant transcriptional changes between skeletal muscles of mice at 3 (young group) and 24 (old group) months of age. Specifically, genes associated with energy metabolism, cell proliferation, muscle myosin isoforms, as well as immune functions were found to be altered. We observed several interesting gene expression changes in the elderly, many of which have not been reported before.CONCLUSIONS: Those data expand our understanding of the various compensatory mechanisms that can occur with age, and further will assist in the development of methods to prevent and attenuate adverse outcomes of aging.

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