Deletion of suppressor of cytokine signaling 3 (SOCS3) in muscle stem cells does not alter muscle regeneration in mice after injury

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Abstract

Muscles of older animals are more susceptible to injury and regenerate poorly, in part due to a persistent inflammatory response. The janus kinase (Jak)/signal transducer and activator of transcription (Stat) pathway mediates inflammatory signaling and is tightly regulated by the suppressor of cytokine signaling (SOCS) proteins, especially SOCS3. SOCS3 expression is altered in the muscle of aged animals and may contribute to the persistent inflammation and impaired regeneration. To test this hypothesis, we performed myotoxic injuries on mice with a tamoxifen-inducible deletion of SOCS3 specifically within the muscle stem cell compartment. Muscle stem cell-specific SOCS3 deletion reduced muscle mass at 14 days post-injury (-14%, P < 0.01), altered the myogenic transcriptional program, and reduced myogenic fusion based on the number of centrally-located nuclei per muscle fiber. Despite the delay in myogenesis, muscles with a muscle stem cell-specific deletion of SOCS3 were still able to regenerate after a single bout or multiple bouts of myotoxic injury. A reduction in SOCS3 expression in muscle stem cells is unlikely to be responsible for the incomplete muscle repair in aged animals.

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The NAD(+)-dependent SIRT1 deacetylase translates a metabolic switch into regulatory epigenetics in skeletal muscle stem cells.

James Ryall, Stefania Dell'Orso, Assia Derfoul … (2015)

Stem cells undergo a shift in metabolic substrate utilization during specification and/or differentiation, a process that has been termed metabolic reprogramming. Here, we report that during the transition from quiescence to proliferation, skeletal muscle stem cells experience a metabolic switch from fatty acid oxidation to glycolysis. This reprogramming of cellular metabolism decreases intracellular NAD(+) levels and the activity of the histone deacetylase SIRT1, leading to elevated H4K16 acetylation and activation of muscle gene transcription. Selective genetic ablation of the SIRT1 deacetylase domain in skeletal muscle results in increased H4K16 acetylation and deregulated activation of the myogenic program in SCs. Moreover, mice with muscle-specific inactivation of the SIRT1 deacetylase domain display reduced myofiber size, impaired muscle regeneration, and derepression of muscle developmental genes. Overall, these findings reveal how metabolic cues can be mechanistically translated into epigenetic modifications that regulate skeletal muscle stem cell biology.

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Inhibition of JAK/STAT signaling stimulates adult satellite cell function

Feodor D. Price, Julia von Maltzahn, C Bentzinger … (2014)

Diminished regenerative capacity of skeletal muscle occurs during adulthood. We identified a reduction in the intrinsic capacity of murine adult satellite cells to contribute to regeneration and repopulate the niche. Gene expression analysis identified an increase in expression of JAK/STAT signaling targets between 3 week old and 18 month old mice. Knockdown of Jak2 or Stat3 significantly stimulated symmetric satellite stem cell divisions on cultured myofibers. Knockdown of Jak2 or Stat3 in prospectively isolated satellite cells markedly enhanced their ability to repopulate the satellite cell niche. Pharmacological inhibition of Jak2 and Stat3 similarly stimulated symmetric expansion of satellite cells in vitro and their engraftment in vivo. Intramuscular injection of these drugs resulted in a dramatic enhancement of muscle repair and force generation. Together these results reveal intrinsic properties that functionally distinguish adult satellite cells and suggest a promising therapeutic avenue for the treatment of muscle wasting diseases.

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In Situ Fixation Redefines Quiescence and Early Activation of Skeletal Muscle Stem Cells

Léo Machado, Joana Esteves de Lima, Odile Fabre … (2017)

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Author and article information

Contributors

Kristy Swiderski: Role: ConceptualizationRole: Formal analysisRole: InvestigationRole: MethodologyRole: Project administrationRole: SupervisionRole: ValidationRole: Writing – original draftRole: Writing – review & editing

Marissa K. Caldow: Role: InvestigationRole: Writing – review & editing

Timur Naim: Role: InvestigationRole: Writing – review & editing

Jennifer Trieu: Role: InvestigationRole: Writing – review & editing

Annabel Chee: Role: InvestigationRole: Writing – review & editing

René Koopman: Role: Funding acquisitionRole: Writing – review & editing

Gordon S. Lynch:

ORCID: http://orcid.org/0000-0001-9220-9810

Role: ConceptualizationRole: Formal analysisRole: Funding acquisitionRole: InvestigationRole: MethodologyRole: Project administrationRole: SupervisionRole: ValidationRole: Writing – review & editing

Stephen E. Alway: Role: Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, CA USA )

ISSN (Electronic): 1932-6203

Publication date (Electronic): 27 February 2019

Publication date Collection: 2019

Volume: 14

Issue: 2

Electronic Location Identifier: e0212880

Affiliations

[001]Centre for Muscle Research, Department of Physiology, The University of Melbourne, Victoria, Australia

University of Tennessee Health Science Center College of Graduate Health Sciences, UNITED STATES

Author notes

Competing Interests: The authors have declared that no competing interests exist.

[¤]

Current address: Department of Biochemistry and Molecular Biology, Monash University, Victoria, Australia

* E-mail: gsl@ 123456unimelb.edu.au

Author information

Gordon S. Lynch http://orcid.org/0000-0001-9220-9810

Article

Publisher ID: PONE-D-18-29811

DOI: 10.1371/journal.pone.0212880

PMC ID: 6392323

PubMed ID: 30811469

SO-VID: 8321fb0a-eaf7-483c-8292-17e21473a827

License:

This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

History

Date received : 15 October 2018

Date accepted : 11 February 2019

Page count

Figures: 4, Tables: 0, Pages: 16

Funding

Funded by: Australian Research Council (AU)

Award ID: DP120101494

Award Recipient :

ORCID: http://orcid.org/0000-0001-9220-9810

Gordon S. Lynch

This work was supported by the Australian Research Council [ARC; DP120101494] awarded to GSL and RK. KS was supported by an Early Career Fellowship from the National Health and Medical Research Council (NH&MRC) of Australia. MKC was supported by a McKenzie Research Fellowship from The University of Melbourne.

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Deletion of suppressor of cytokine signaling 3 (SOCS3) in muscle stem cells does not alter muscle regeneration in mice after injury

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Most cited references 26

The NAD(+)-dependent SIRT1 deacetylase translates a metabolic switch into regulatory epigenetics in skeletal muscle stem cells.

Inhibition of JAK/STAT signaling stimulates adult satellite cell function

In Situ Fixation Redefines Quiescence and Early Activation of Skeletal Muscle Stem Cells

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