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. 2014 Jun 21:(88):e51243.
doi: 10.3791/51243.

Generation of myospheres from hESCs by epigenetic reprogramming

Sonia Albini  1 Pier Lorenzo Puri  2
Affiliations

Generation of myospheres from hESCs by epigenetic reprogramming

Sonia Albini et al. J Vis Exp. .

Abstract

Generation of a homogeneous and abundant population of skeletal muscle cells from human embryonic stem cells (hESCs) is a requirement for cell-based therapies and for a "disease in a dish" model of human neuromuscular diseases. Major hurdles, such as low abundance and heterogeneity of the population of interest, as well as a lack of protocols for the formation of three-dimensional contractile structures, have limited the applications of stem cells for neuromuscular disorders. We have designed a protocol that overcomes these limits by ectopic introduction of defined factors in hESCs--the muscle determination factor MyoD and SWI/SNF chromatin remodeling complex component BAF60C--that are able to reprogram hESCs into skeletal muscle cells. Here we describe the protocol established to generate hESC-derived myoblasts and promote their clustering into tridimensional miniaturized structures (myospheres) that functionally mimic miniaturized skeletal muscles.

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References

    1. Darabi R, et al. Functional skeletal muscle regeneration from differentiating embryonic stem cells. Nat Med. 2008;14:134–143. - PubMed
    1. Darabi R, et al. Human ES- and iPS-derived myogenic progenitors restore DYSTROPHIN and improve contractility upon transplantation in dystrophic mice. Cell Stem Cell. 2012;10:610–619. - PMC - PubMed
    1. Iacovino M, et al. Inducible cassette exchange: a rapid and efficient system enabling conditional gene expression in embryonic stem and primary cells. Stem Cells. 2011;29:1580–1588. - PMC - PubMed
    1. Barberi T, et al. Derivation of engraftable skeletal myoblasts from human embryonic stem cells. Nat Med. 2007;13:642–648. - PubMed
    1. Goudenege S, et al. Myoblasts derived from normal hESCs and dystrophic hiPSCs efficiently fuse with existing muscle fibers following transplantation. Mol Ther. 2012;11:2153–2167. - PMC - PubMed

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