PITX2 Enhances the Regenerative Potential of Dystrophic Skeletal Muscle Stem Cells

Daniel Vallejo; Francisco Hernández-Torres; Estefanía Lozano-Velasco; Lara Rodriguez-Outeiriño; Alejandra Carvajal; Carlota Creus; Diego Franco; Amelia Eva Aránega

doi:10.1016/j.stemcr.2018.03.009

PITX2 Enhances the Regenerative Potential of Dystrophic Skeletal Muscle Stem Cells

Daniel Vallejo, Francisco Hernández-Torres, Estefanía Lozano-Velasco, Lara Rodriguez-Outeiriño, Alejandra Carvajal, Carlota Creus, Diego Franco, Amelia Eva Aránega

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

19 Citations (Scopus)

Abstract

Duchenne muscular dystrophy (DMD), one of the most lethal genetic disorders, involves progressive muscle degeneration resulting from the absence of DYSTROPHIN. Lack of DYSTROPHIN expression in DMD has critical consequences in muscle satellite stem cells including a reduced capacity to generate myogenic precursors. Here, we demonstrate that the c-isoform of PITX2 transcription factor modifies the myogenic potential of dystrophic-deficient satellite cells. We further show that PITX2c enhances the regenerative capability of mouse DYSTROPHIN-deficient satellite cells by increasing cell proliferation and the number of myogenic committed cells, but importantly also increasing dystrophin-positive (revertant) myofibers by regulating miR-31. These PITX2-mediated effects finally lead to improved muscle function in dystrophic (DMD/mdx) mice. Our studies reveal a critical role for PITX2 in skeletal muscle repair and may help to develop therapeutic strategies for muscular disorders. Vallejo et al. show that PITX2c enhances the regenerative capability of mouse DYSTROPHIN-deficient satellite cells by increasing cell proliferation and the number of myogenic committed cells but importantly also increasing dystrophin-positive (revertant) myofibers by regulating miR-31.

Original language	English
Pages (from-to)	1398-1411
Number of pages	14
Journal	Stem Cell Reports
Volume	10
Issue number	4
DOIs	https://doi.org/10.1016/j.stemcr.2018.03.009
Publication status	Published - 10 Apr 2018
Externally published	Yes

Keywords

PITX2
miR-31
muscle stem cells
muscular dystrophy

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10.1016/j.stemcr.2018.03.009

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title = "PITX2 Enhances the Regenerative Potential of Dystrophic Skeletal Muscle Stem Cells",

abstract = "Duchenne muscular dystrophy (DMD), one of the most lethal genetic disorders, involves progressive muscle degeneration resulting from the absence of DYSTROPHIN. Lack of DYSTROPHIN expression in DMD has critical consequences in muscle satellite stem cells including a reduced capacity to generate myogenic precursors. Here, we demonstrate that the c-isoform of PITX2 transcription factor modifies the myogenic potential of dystrophic-deficient satellite cells. We further show that PITX2c enhances the regenerative capability of mouse DYSTROPHIN-deficient satellite cells by increasing cell proliferation and the number of myogenic committed cells, but importantly also increasing dystrophin-positive (revertant) myofibers by regulating miR-31. These PITX2-mediated effects finally lead to improved muscle function in dystrophic (DMD/mdx) mice. Our studies reveal a critical role for PITX2 in skeletal muscle repair and may help to develop therapeutic strategies for muscular disorders. Vallejo et al. show that PITX2c enhances the regenerative capability of mouse DYSTROPHIN-deficient satellite cells by increasing cell proliferation and the number of myogenic committed cells but importantly also increasing dystrophin-positive (revertant) myofibers by regulating miR-31.",

keywords = "PITX2, miR-31, muscle stem cells, muscular dystrophy",

author = "Daniel Vallejo and Francisco Hern{\'a}ndez-Torres and Estefan{\'i}a Lozano-Velasco and Lara Rodriguez-Outeiri{\~n}o and Alejandra Carvajal and Carlota Creus and Diego Franco and Ar{\'a}nega, {Amelia Eva}",

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AU - Vallejo, Daniel

AU - Hernández-Torres, Francisco

AU - Lozano-Velasco, Estefanía

AU - Rodriguez-Outeiriño, Lara

AU - Carvajal, Alejandra

AU - Creus, Carlota

AU - Franco, Diego

AU - Aránega, Amelia Eva

PY - 2018/4/10

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N2 - Duchenne muscular dystrophy (DMD), one of the most lethal genetic disorders, involves progressive muscle degeneration resulting from the absence of DYSTROPHIN. Lack of DYSTROPHIN expression in DMD has critical consequences in muscle satellite stem cells including a reduced capacity to generate myogenic precursors. Here, we demonstrate that the c-isoform of PITX2 transcription factor modifies the myogenic potential of dystrophic-deficient satellite cells. We further show that PITX2c enhances the regenerative capability of mouse DYSTROPHIN-deficient satellite cells by increasing cell proliferation and the number of myogenic committed cells, but importantly also increasing dystrophin-positive (revertant) myofibers by regulating miR-31. These PITX2-mediated effects finally lead to improved muscle function in dystrophic (DMD/mdx) mice. Our studies reveal a critical role for PITX2 in skeletal muscle repair and may help to develop therapeutic strategies for muscular disorders. Vallejo et al. show that PITX2c enhances the regenerative capability of mouse DYSTROPHIN-deficient satellite cells by increasing cell proliferation and the number of myogenic committed cells but importantly also increasing dystrophin-positive (revertant) myofibers by regulating miR-31.

AB - Duchenne muscular dystrophy (DMD), one of the most lethal genetic disorders, involves progressive muscle degeneration resulting from the absence of DYSTROPHIN. Lack of DYSTROPHIN expression in DMD has critical consequences in muscle satellite stem cells including a reduced capacity to generate myogenic precursors. Here, we demonstrate that the c-isoform of PITX2 transcription factor modifies the myogenic potential of dystrophic-deficient satellite cells. We further show that PITX2c enhances the regenerative capability of mouse DYSTROPHIN-deficient satellite cells by increasing cell proliferation and the number of myogenic committed cells, but importantly also increasing dystrophin-positive (revertant) myofibers by regulating miR-31. These PITX2-mediated effects finally lead to improved muscle function in dystrophic (DMD/mdx) mice. Our studies reveal a critical role for PITX2 in skeletal muscle repair and may help to develop therapeutic strategies for muscular disorders. Vallejo et al. show that PITX2c enhances the regenerative capability of mouse DYSTROPHIN-deficient satellite cells by increasing cell proliferation and the number of myogenic committed cells but importantly also increasing dystrophin-positive (revertant) myofibers by regulating miR-31.

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PITX2 Enhances the Regenerative Potential of Dystrophic Skeletal Muscle Stem Cells

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