The role of Pitx2 and Pitx3 in muscle stem cells gives new insights into P38α MAP kinase and redox regulation of muscle regeneration

The role of Pitx2 and Pitx3 in muscle stem cells gives new insights into P38α MAP kinase and redox regulation of muscle regeneration

Skeletal muscle regeneration depends on satellite cells. After injury these muscle stem cells exit quiescence, proliferate and differentiate to regenerate damaged fibres. We show that this progression is accompanied by metabolic changes leading to increased production of reactive oxygen species (ROS...

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Main Authors: Aurore L'honoré, Pierre-Henri Commère, Elisa Negroni, Giorgia Pallafacchina, Bertrand Friguet, Jacques Drouin, Margaret Buckingham, Didier Montarras
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2018-08-01
Series:eLife
Subjects:
muscle stem cell
redox state
regeneration
Pitx2/3
cell therapy
p38α MAPK
Online Access:https://elifesciences.org/articles/32991
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spelling doaj-5089f29edf7344aab3fb35ecda0d420c2021-05-05T16:05:23ZengeLife Sciences Publications LtdeLife2050-084X2018-08-01710.7554/eLife.32991The role of Pitx2 and Pitx3 in muscle stem cells gives new insights into P38α MAP kinase and redox regulation of muscle regenerationAurore L'honoré0https://orcid.org/0000-0001-6371-4455Pierre-Henri Commère1Elisa Negroni2Giorgia Pallafacchina3https://orcid.org/0000-0001-9766-5970Bertrand Friguet4Jacques Drouin5Margaret Buckingham6Didier Montarras7https://orcid.org/0000-0002-7691-359XDepartment of Developmental and Stem Cell Biology, CNRS, UMR 3738, Institut Pasteur, Paris, France; Biological Adaptation and Aging-IBPS, CNRS UMR 8256, INSERM ERL U1164, Sorbonne Universités, Université Pierre et Marie Curie, Paris, FrancePlatform of Cytometry, Institut Pasteur, Paris, FranceCenter for Research in Myology, Sorbonne Universités, Université Pierre et Marie Curie, Paris, FranceNeuroscienceInstitute, Department of Biomedical Sciences, Italian National Research Council, Universityof Padova, Padova, ItalyBiological Adaptation and Aging-IBPS, CNRS UMR 8256, INSERM ERL U1164, Sorbonne Universités, Université Pierre et Marie Curie, Paris, FranceLaboratory of Molecular Genetics, Institut de Recherches Cliniques de Montréal, Montréal, CanadaDepartment of Developmental and Stem Cell Biology, CNRS, UMR 3738, Institut Pasteur, Paris, FranceDepartment of Developmental and Stem Cell Biology, CNRS, UMR 3738, Institut Pasteur, Paris, FranceSkeletal muscle regeneration depends on satellite cells. After injury these muscle stem cells exit quiescence, proliferate and differentiate to regenerate damaged fibres. We show that this progression is accompanied by metabolic changes leading to increased production of reactive oxygen species (ROS). Using Pitx2/3 single and double mutant mice that provide genetic models of deregulated redox states, we demonstrate that moderate overproduction of ROS results in premature differentiation of satellite cells while high levels lead to their senescence and regenerative failure. Using the ROS scavenger, N-Acetyl-Cysteine (NAC), in primary cultures we show that a physiological increase in ROS is required for satellite cells to exit the cell cycle and initiate differentiation through the redox activation of p38α MAP kinase. Subjecting cultured satellite cells to transient inhibition of P38α MAP kinase in conjunction with NAC treatment leads to their rapid expansion, with striking improvement of their regenerative potential in grafting experiments.https://elifesciences.org/articles/32991muscle stem cellredox stateregenerationPitx2/3cell therapyp38α MAPK
collection DOAJ
language English
format Article
sources DOAJ
author Aurore L'honoré
Pierre-Henri Commère
Elisa Negroni
Giorgia Pallafacchina
Bertrand Friguet
Jacques Drouin
Margaret Buckingham
Didier Montarras
spellingShingle Aurore L'honoré
Pierre-Henri Commère
Elisa Negroni
Giorgia Pallafacchina
Bertrand Friguet
Jacques Drouin
Margaret Buckingham
Didier Montarras
The role of Pitx2 and Pitx3 in muscle stem cells gives new insights into P38α MAP kinase and redox regulation of muscle regeneration
eLife
muscle stem cell
redox state
regeneration
Pitx2/3
cell therapy
p38α MAPK
author_facet Aurore L'honoré
Pierre-Henri Commère
Elisa Negroni
Giorgia Pallafacchina
Bertrand Friguet
Jacques Drouin
Margaret Buckingham
Didier Montarras
author_sort Aurore L'honoré
title The role of Pitx2 and Pitx3 in muscle stem cells gives new insights into P38α MAP kinase and redox regulation of muscle regeneration
title_short The role of Pitx2 and Pitx3 in muscle stem cells gives new insights into P38α MAP kinase and redox regulation of muscle regeneration
title_full The role of Pitx2 and Pitx3 in muscle stem cells gives new insights into P38α MAP kinase and redox regulation of muscle regeneration
title_fullStr The role of Pitx2 and Pitx3 in muscle stem cells gives new insights into P38α MAP kinase and redox regulation of muscle regeneration
title_full_unstemmed The role of Pitx2 and Pitx3 in muscle stem cells gives new insights into P38α MAP kinase and redox regulation of muscle regeneration
title_sort role of pitx2 and pitx3 in muscle stem cells gives new insights into p38α map kinase and redox regulation of muscle regeneration
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2018-08-01
description Skeletal muscle regeneration depends on satellite cells. After injury these muscle stem cells exit quiescence, proliferate and differentiate to regenerate damaged fibres. We show that this progression is accompanied by metabolic changes leading to increased production of reactive oxygen species (ROS). Using Pitx2/3 single and double mutant mice that provide genetic models of deregulated redox states, we demonstrate that moderate overproduction of ROS results in premature differentiation of satellite cells while high levels lead to their senescence and regenerative failure. Using the ROS scavenger, N-Acetyl-Cysteine (NAC), in primary cultures we show that a physiological increase in ROS is required for satellite cells to exit the cell cycle and initiate differentiation through the redox activation of p38α MAP kinase. Subjecting cultured satellite cells to transient inhibition of P38α MAP kinase in conjunction with NAC treatment leads to their rapid expansion, with striking improvement of their regenerative potential in grafting experiments.
topic muscle stem cell
redox state
regeneration
Pitx2/3
cell therapy
p38α MAPK
url https://elifesciences.org/articles/32991
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