1. Mouse adipose tissue stromal cells give rise to skeletal and cardiomyogenic cell sub-populations
- Author
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Cécile eDromard, Corinne eBarreau, Mireille eAndré, Sandra eBerger-Müller, Louis eCasteilla, and Valerie ePlanat-Benard
- Subjects
Cell type ,education.field_of_study ,Stromal cell ,cell plasticity ,Cardiac myogenesis ,Population ,Adipose tissue ,Context (language use) ,Cell Biology ,Stromal vascular fraction ,Biology ,Bioinformatics ,Phenotype ,cardiac and skeletal myogenesis ,Cell biology ,Cell and Developmental Biology ,lcsh:Biology (General) ,in vitro differentiation ,Original Research Article ,Progenitor cell ,education ,lcsh:QH301-705.5 ,Adipose tissue stem cells ,Skeletal myogenesis ,Developmental Biology - Abstract
We previously reported that adipose tissue could generate cardiomyocyte-like cells from crude stromal vascular fraction (SVF) in vitro that improved cardiac function in a myocardial infarction context. However, it is not clear whether these adipose-derived cardiomyogenic cells (AD-CMG) constitute a homogenous population and if AD-CMG progenitors could be isolated as a pure population from the SVF of adipose tissue. This study aims to characterize the different cell types that constitute myogenic clusters and identify the earliest AD-CMG progenitors in vitro for establishing a complete phenotype and use it to sort AD-CMG progenitors from crude SVF. Here, we report cell heterogeneity among adipose-derived clusters during their course of maturation and highlighted sub-populations that exhibit original mixed cardiac/skeletal muscle phenotypes with a progressive loss of cardiac phenotype with time in liquid culture conditions. Moreover, we completed the phenotype of AD-CMG progenitors but we failed to sort them from the stromal vascular fraction. We demonstrated that micro-environment is required for the maturation of myogenic phenotype by co-culture experiments. These findings bring complementary data on AD-CMG and suggest that their emergence results from in vitro events.
- Published
- 2014