2015
DOI: 10.1186/s13395-015-0030-1
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Increased microenvironment stiffness in damaged myofibers promotes myogenic progenitor cell proliferation

Abstract: BackgroundThe stiffness of the myogenic stem cell microenvironment markedly influences the ability to regenerate tissue. We studied the effect of damaged myofibers on myogenic progenitor cell (MPC) proliferation and determined whether the structural integrity of the microenvironment contributes to phenotypic changes.MethodsIndividual myofibers were isolated and cultured for 6 days. During this period, the cytoskeleton of myofibers and transcription factors regulating MPC differentiation were characterized by i… Show more

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Cited by 53 publications
(45 citation statements)
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“…Considering this, collagen VI in combination with laminin 521 may reduce the spontaneous differentiation during expansion, at which time collagen VI could be removed to induce differentiation. ECM stiffness is a critical regulator balancing myogenesis towards proliferation or differentiation [2832]. Combining laminin 521 with MG or a hydrogel may provide increased performance in both proliferation and/or differentiation by providing a method to customize stiffness of the substrate to optimize both proliferation and differentiation conditions.…”
Section: Discussionmentioning
confidence: 99%
“…Considering this, collagen VI in combination with laminin 521 may reduce the spontaneous differentiation during expansion, at which time collagen VI could be removed to induce differentiation. ECM stiffness is a critical regulator balancing myogenesis towards proliferation or differentiation [2832]. Combining laminin 521 with MG or a hydrogel may provide increased performance in both proliferation and/or differentiation by providing a method to customize stiffness of the substrate to optimize both proliferation and differentiation conditions.…”
Section: Discussionmentioning
confidence: 99%
“…Damage to myofibers in culture increases their stiffness and causes a marked increase in proliferative MuSCs [82]. Growing mouse MuSCs on hydrogels with matching stiffness recapitulated the proliferation of MuSCs, indicating mechanosensing as a key activator of MuSC in response to muscle fiber injury.…”
Section: Skeletal Muscle Stem Cell Mechanosensing From In Vitro To Inmentioning
confidence: 99%
“…Following publication of the original article [1] it was brought to our attention that the fourth author’s surname had been misspelt. The author name was incorrectly written as Thomas Söllrald.…”
Section: Erratummentioning
confidence: 99%