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Transcriptional reprogramming of skeletal muscle stem cells by the niche environment.

Nature communications (2023-02-03)
Felicia Lazure, Rick Farouni, Korin Sahinyan, Darren M Blackburn, Aldo Hernández-Corchado, Gabrielle Perron, Tianyuan Lu, Adrien Osakwe, Jiannis Ragoussis, Colin Crist, Theodore J Perkins, Arezu Jahani-Asl, Hamed S Najafabadi, Vahab D Soleimani
RÉSUMÉ

Adult stem cells are indispensable for tissue regeneration, but their function declines with age. The niche environment in which the stem cells reside plays a critical role in their function. However, quantification of the niche effect on stem cell function is lacking. Using muscle stem cells (MuSC) as a model, we show that aging leads to a significant transcriptomic shift in their subpopulations accompanied by locus-specific gain and loss of chromatin accessibility and DNA methylation. By combining in vivo MuSC transplantation and computational methods, we show that the expression of approximately half of all age-altered genes in MuSCs from aged male mice can be restored by exposure to a young niche environment. While there is a correlation between gene reversibility and epigenetic alterations, restoration of gene expression occurs primarily at the level of transcription. The stem cell niche environment therefore represents an important therapeutic target to enhance tissue regeneration in aging.

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Roche
Dispase® II (protéase neutre, type II), lyophilized, from bacterial, Roche, pkg of 5 × 1 g
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Anti-laminine antibody produced in rabbit, 0.5 mg/mL, affinity isolated antibody, buffered aqueous solution
Millipore
Protéinase K from Tritirachium album, Highly active serine protease that exhibits broad cleavage specificity on native and denatured proteins and is widely used in the purification of DNA and RNA.