Myomir dysregulation and reactive oxygen species in aged human satellite cells

Satellite cells that reside on the myofibre surface are crucial for the muscle homeostasis and regeneration. Aging goes along with a less effective regeneration of skeletal muscle tissue mainly due to the decreased myogenic capability of satellite cells. This phenomenon impedes proper maintenance an...

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Published in	Biochemical and biophysical research communications Vol. 473; no. 2; pp. 462 - 470
Main Authors	Di Filippo, Ester Sara, Mancinelli, Rosa, Pietrangelo, Tiziana, La Rovere, Rita Maria Laura, Quattrocelli, Mattia, Sampaolesi, Maurilio, Fulle, Stefania
Format	Journal Article
Language	English
Published	United States Elsevier Inc 29.04.2016
Subjects	Adolescent Adult Aged Aged, 80 and over Aging Cells, Cultured elderly Gene Expression Regulation homeostasis Human satellite cells Humans Male microRNA MicroRNAs - genetics Muscle Development muscles myomiRNAs people reactive oxygen species Reactive Oxygen Species - metabolism ROS Sarcopenia Sarcopenia - genetics Sarcopenia - metabolism Satellite Cells, Skeletal Muscle - cytology Satellite Cells, Skeletal Muscle - metabolism skeletal muscle Young Adult Aging Sarcopenia Human satellite cells myomiRNAs ROS
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ISSN	0006-291X 1090-2104
DOI	10.1016/j.bbrc.2016.03.030

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Abstract	Satellite cells that reside on the myofibre surface are crucial for the muscle homeostasis and regeneration. Aging goes along with a less effective regeneration of skeletal muscle tissue mainly due to the decreased myogenic capability of satellite cells. This phenomenon impedes proper maintenance and contributes to the age-associated decline in muscle mass, known as sarcopenia. The myogenic potential impairment does not depend on a reduced myogenic cell number, but mainly on their difficulty to complete a differentiation program. The unbalanced production of reactive oxygen species in elderly people could be responsible for skeletal muscle impairments. microRNAs are conserved post-transcriptional regulators implicated in numerous biological processes including adult myogenesis. Here, we measure the ROS level and analyze myomiR (miR-1, miR-133b and miR-206) expression in human myogenic precursors obtained from Vastus lateralis of elderly and young subjects to provide the molecular signature responsible for the differentiation impairment of elderly activated satellite cells.
AbstractList	Satellite cells that reside on the myofibre surface are crucial for the muscle homeostasis and regeneration. Aging goes along with a less effective regeneration of skeletal muscle tissue mainly due to the decreased myogenic capability of satellite cells. This phenomenon impedes proper maintenance and contributes to the age-associated decline in muscle mass, known as sarcopenia. The myogenic potential impairment does not depend on a reduced myogenic cell number, but mainly on their difficulty to complete a differentiation program. The unbalanced production of reactive oxygen species in elderly people could be responsible for skeletal muscle impairments. microRNAs are conserved post-transcriptional regulators implicated in numerous biological processes including adult myogenesis. Here, we measure the ROS level and analyze myomiR (miR-1, miR-133b and miR-206) expression in human myogenic precursors obtained from Vastus lateralis of elderly and young subjects to provide the molecular signature responsible for the differentiation impairment of elderly activated satellite cells.
Author	Mancinelli, Rosa Sampaolesi, Maurilio Di Filippo, Ester Sara Fulle, Stefania La Rovere, Rita Maria Laura Quattrocelli, Mattia Pietrangelo, Tiziana
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Keywords	Aging Sarcopenia Human satellite cells myomiRNAs ROS
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Snippet	Satellite cells that reside on the myofibre surface are crucial for the muscle homeostasis and regeneration. Aging goes along with a less effective...
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SubjectTerms	Adolescent Adult Aged Aged, 80 and over Aging Cells, Cultured elderly Gene Expression Regulation homeostasis Human satellite cells Humans Male microRNA MicroRNAs - genetics Muscle Development muscles myomiRNAs people reactive oxygen species Reactive Oxygen Species - metabolism ROS Sarcopenia Sarcopenia - genetics Sarcopenia - metabolism Satellite Cells, Skeletal Muscle - cytology Satellite Cells, Skeletal Muscle - metabolism skeletal muscle Young Adult
Title	Myomir dysregulation and reactive oxygen species in aged human satellite cells
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