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p21 induces a senescence program and skeletal muscle dysfunction

Davis A. Englund, Alyssa M. Jolliffe, Zaira Aversa, Xu Zhang, Ines Sturmlechner, Ayumi Sakamoto, Julianna D. Zeidler, Gina M. Warner, Colton McNinch, Thomas A. White, Eduardo N. Chini, Darren J. Baker, Jan M. van Deursen, Nathan K. LeBrasseur

Molecular Metabolism · 2022 · ▲ 83 citations

Genomic instability Mitochondrial dysfunction Cellular senescence Human Mouse

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Abstract

Recent work has established associations between elevated p21, the accumulation of senescent cells, and skeletal muscle dysfunction in mice and humans. Using a mouse model of p21 overexpression (p21OE), we examined if p21 mechanistically contributes to cellular senescence and pathological features in skeletal muscle. We show that p21 induces several core properties of cellular senescence in skeletal muscle, including an altered transcriptome, DNA damage, mitochondrial dysfunction, and the senescence-associated secretory phenotype (SASP). Furthermore, p21OE mice exhibit manifestations of skeletal muscle pathology, such as atrophy, fibrosis, and impaired physical function when compared to age-matched controls. These findings suggest p21 alone is sufficient to drive a cellular senescence program and reveal a novel source of skeletal muscle loss and dysfunction.

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Provenance

Source: OpenAlex
DOI: 10.1016/j.molmet.2022.101652
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Fetched: 2026-06-07 MST

Cite this

APA

Englund, D.A., Jolliffe, A.M., Aversa, Z., Zhang, X., Sturmlechner, I., Sakamoto, A., Zeidler, J.D., Warner, G.M., McNinch, C., White, T.A., Chini, E.N., Baker, D.J., Deursen, J.M.V., & LeBrasseur, N.K. (2022). p21 induces a senescence program and skeletal muscle dysfunction. <em>Molecular Metabolism</em>. https://doi.org/10.1016/j.molmet.2022.101652

Vancouver

Englund DA, Jolliffe AM, Aversa Z, Zhang X, Sturmlechner I, Sakamoto A, et al. p21 induces a senescence program and skeletal muscle dysfunction. Molecular Metabolism. 2022. doi:10.1016/j.molmet.2022.101652.

BibTeX

@article{davis2022pinduc, title = {p21 induces a senescence program and skeletal muscle dysfunction}, author = {Davis A. Englund and Alyssa M. Jolliffe and Zaira Aversa and Xu Zhang and Ines Sturmlechner and Ayumi Sakamoto and Julianna D. Zeidler and Gina M. Warner and Colton McNinch and Thomas A. White and Eduardo N. Chini and Darren J. Baker and Jan M. van Deursen and Nathan K. LeBrasseur}, journal = {Molecular Metabolism}, year = {2022}, doi = {10.1016/j.molmet.2022.101652}, }

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