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© Research
Publication : Stem cells (Dayton, Ohio)

Skeletal muscle differentiation of embryonic mesoangioblasts requires pax3 activity.

Scientific Fields
Diseases
Organisms
Applications
Technique

Published in Stem cells (Dayton, Ohio) - 01 Jan 2009

Messina G, Sirabella D, Monteverde S, Galvez BG, Tonlorenzi R, Schnapp E, De Angelis L, Brunelli S, Relaix F, Buckingham M, Cossu G

Link to Pubmed [PMID] – 18845762

Link to DOI – 10.1634/stemcells.2008-0503

Stem Cells 2009 Jan; 27(1): 157-64

Mesoangioblasts have been characterized as a population of vessel-associated stem cells able to differentiate into several mesodermal cell types, including skeletal muscle. Here, we report that the paired box transcription factor Pax3 plays a crucial role in directing mouse mesoangioblasts toward skeletal myogenesis in vitro and in vivo. Mesoangioblasts isolated from the aorta of Pax3 null embryos are severely impaired in skeletal muscle differentiation, whereas most other differentiation programs are not affected by the absence of Pax3. Moreover, Pax3(-/-) null mesoangioblasts failed to rescue the myopathic phenotype of the alpha-sarcoglycan mutant mouse. In contrast, mesoangioblasts from Pax3 gain of function, Pax3(PAX3-FKHR/+), mice display enhanced myogenesis in vitro and are more efficient in regenerating new muscle fibers in this model of muscular dystrophy. These data demonstrate that Pax3 is required for the differentiation of mesoangioblast stem cells into skeletal muscle, in keeping with its role in orchestrating entry into the myogenic program.