Highly Coordinated Gene Regulation in Mouse Skeletal Muscle Regeneration

Mammalian skeletal muscles are capable of regeneration after injury. Quiescent satellite cells are activated to reenter the cell cycle and to differentiate for repair, recapitulating features of myogenesis during embryonic development. To understand better the molecular mechanism involved in this pr...

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Published inThe Journal of biological chemistry Vol. 278; no. 10; pp. 8826 - 8836
Main Authors Yan, Zhen, Choi, Sangdun, Liu, Xuebin, Zhang, Mei, Schageman, Jeoffrey J, Lee, Sun Young, Hart, Rebecca, Lin, Ling, Thurmond, Frederick A, Williams, R Sanders
Format Journal Article
LanguageEnglish
Published United States American Society for Biochemistry and Molecular Biology 07.03.2003
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Abstract Mammalian skeletal muscles are capable of regeneration after injury. Quiescent satellite cells are activated to reenter the cell cycle and to differentiate for repair, recapitulating features of myogenesis during embryonic development. To understand better the molecular mechanism involved in this process in vivo , we employed high density cDNA microarrays for gene expression profiling in mouse tibialis anterior muscles after a cardiotoxin injection. Among 16,267 gene elements surveyed, 3,532 elements showed at least a 2.5-fold change at one or more time points during a 14-day time course. Hierarchical cluster analysis and semiquantitative reverse transcription-PCR showed induction of genes important for cell cycle control and DNA replication during the early phase of muscle regeneration. Subsequently, genes for myogenic regulatory factors, a group of imprinted genes and genes with functions to inhibit cell cycle progression and promote myogenic differentiation, were induced when myogenic stem cells started to differentiate. Induction of a majority of these genes, including E2f1 and E2f2, was abolished in muscles lacking satellite cell activity after gamma radiation. Regeneration was severely compromised in E2f1 null mice but not affected in E2f2 null mice. This study identifies novel genes potentially important for muscle regeneration and reveals highly coordinated myogenic cell proliferation and differentiation programs in adult skeletal muscle regeneration in vivo .
AbstractList Mammalian skeletal muscles are capable of regeneration after injury. Quiescent satellite cells are activated to reenter the cell cycle and to differentiate for repair, recapitulating features of myogenesis during embryonic development. To understand better the molecular mechanism involved in this process in vivo, we employed high density cDNA microarrays for gene expression profiling in mouse tibialis anterior muscles after a cardiotoxin injection. Among 16,267 gene elements surveyed, 3,532 elements showed at least a 2.5-fold change at one or more time points during a 14-day time course. Hierarchical cluster analysis and semiquantitative reverse transcription-PCR showed induction of genes important for cell cycle control and DNA replication during the early phase of muscle regeneration. Subsequently, genes for myogenic regulatory factors, a group of imprinted genes and genes with functions to inhibit cell cycle progression and promote myogenic differentiation, were induced when myogenic stem cells started to differentiate. Induction of a majority of these genes, including E2f1 and E2f2, was abolished in muscles lacking satellite cell activity after gamma radiation. Regeneration was severely compromised in E2f1 null mice but not affected in E2f2 null mice. This study identifies novel genes potentially important for muscle regeneration and reveals highly coordinated myogenic cell proliferation and differentiation programs in adult skeletal muscle regeneration in vivo.
Mammalian skeletal muscles are capable of regeneration after injury. Quiescent satellite cells are activated to reenter the cell cycle and to differentiate for repair, recapitulating features of myogenesis during embryonic development. To understand better the molecular mechanism involved in this process in vivo , we employed high density cDNA microarrays for gene expression profiling in mouse tibialis anterior muscles after a cardiotoxin injection. Among 16,267 gene elements surveyed, 3,532 elements showed at least a 2.5-fold change at one or more time points during a 14-day time course. Hierarchical cluster analysis and semiquantitative reverse transcription-PCR showed induction of genes important for cell cycle control and DNA replication during the early phase of muscle regeneration. Subsequently, genes for myogenic regulatory factors, a group of imprinted genes and genes with functions to inhibit cell cycle progression and promote myogenic differentiation, were induced when myogenic stem cells started to differentiate. Induction of a majority of these genes, including E2f1 and E2f2, was abolished in muscles lacking satellite cell activity after gamma radiation. Regeneration was severely compromised in E2f1 null mice but not affected in E2f2 null mice. This study identifies novel genes potentially important for muscle regeneration and reveals highly coordinated myogenic cell proliferation and differentiation programs in adult skeletal muscle regeneration in vivo .
Author Ling Lin
Jeoffrey J. Schageman
Zhen Yan
Sun Young Lee
Sangdun Choi
Mei Zhang
Rebecca Hart
R. Sanders Williams
Xuebin Liu
Frederick A. Thurmond
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/12477723$$D View this record in MEDLINE/PubMed
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Snippet Mammalian skeletal muscles are capable of regeneration after injury. Quiescent satellite cells are activated to reenter the cell cycle and to differentiate for...
Mammalian skeletal muscles are capable of regeneration after injury. Quiescent satellite cells are activated to reenter the cell cycle and to differentiate for...
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StartPage 8826
SubjectTerms Animals
Base Sequence
Cell Cycle Proteins
Cobra Cardiotoxin Proteins - administration & dosage
DNA Primers
DNA-Binding Proteins
E2F Transcription Factors
E2F1 Transcription Factor
Fluorescent Antibody Technique, Indirect
Gene Expression Profiling
Gene Expression Regulation
Genes, cdc
Male
Mice
Mice, Inbred C57BL
Microscopy, Electron
Muscle, Skeletal - metabolism
Muscle, Skeletal - physiology
Muscle, Skeletal - ultrastructure
Oligonucleotide Array Sequence Analysis
Regeneration - genetics
Reverse Transcriptase Polymerase Chain Reaction
RNA, Messenger - genetics
Transcription Factors - genetics
Title Highly Coordinated Gene Regulation in Mouse Skeletal Muscle Regeneration
URI http://www.jbc.org/content/278/10/8826.abstract
https://www.ncbi.nlm.nih.gov/pubmed/12477723
https://search.proquest.com/docview/18685162
Volume 278
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