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Literature DB >> 35005083

A Simple Method for the Isolation and in vitro Expansion of Highly Pure Mouse and Human Satellite Cells.

Anna Benedetti¹, Gianluca Cera^2,3, Daniele De Meo^2,3, Ciro Villani^2,3, Marina Bouche¹, Biliana Lozanoska-Ochser¹.

Abstract

Satellite cells (SCs) are muscle stem cells capable of regenerating injured muscle. The study of their functional potential depends on the availability of methods for the isolation and expansion of pure SCs, which retain myogenic properties after serial passages in vitro. Here, we describe a protocol for the isolation and in vitro expansion of highly pure mouse and human SCs based on ice-cold treatment (ICT). The ICT is carried out by briefly incubating the dish containing a heterogeneous mix of adherent muscle mononuclear cells on ice for 15-30 min, which leads to the detachment only of the SCs, and gives rise to SC cultures with 95-100% purity. This approach can also be used to passage the cells, allowing SC expansion over extended periods of time without compromising their proliferation or differentiation potential. Overall, the ICT method is cost-effective, accessible, technically simple, reproducible, and highly efficient. Graphic abstract: Figure 1.Satellite cell isolation using the ice-cold treatment method.

Entities: Chemical

Keywords: In vitro expansion ; MyoD; Pax7; Satellite cell isolation; Skeletal muscle

Year: 2021 PMID： 35005083 PMCID： PMC8678546 DOI： 10.21769/BioProtoc.4238

Source DB: PubMed Journal: Bio Protoc ISSN： 2331-8325

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References

16 in total

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A Simple Method for the Isolation and in vitro Expansion of Highly Pure Mouse and Human Satellite Cells.

1. Purification of mouse primary myoblasts based on alpha 7 integrin expression.

2. Isolation of adult mouse myogenic progenitors: functional heterogeneity of cells within and engrafting skeletal muscle.

3. Isolation of a slowly adhering cell fraction containing stem cells from murine skeletal muscle by the preplate technique.

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10. A novel approach for the isolation and long-term expansion of pure satellite cells based on ice-cold treatment.