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Physiological hypoxia restrains the senescence-associated secretory phenotype via AMPK-mediated mTOR suppression

Thijmen van Vliet, Marta Varela-Eirín, Boshi Wang, Michela Borghesan, Simone Brandenburg, Rossana Franzin, Konstantinos Evangelou, Marc A. Seelen, Vassilis G. Gorgoulis, Marco Demaria

Molecular Cell · 2021 · ▲ 153 citations

Deregulated nutrient-sensing Cellular senescence

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Provenance

Source: OpenAlex
DOI: 10.1016/j.molcel.2021.03.018
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Fetched: 2026-06-01 MST

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APA

Vliet, T.V., Varela-Eirín, M., Wang, B., Borghesan, M., Brandenburg, S., Franzin, R., Evangelou, K., Seelen, M.A., Gorgoulis, V.G., & Demaria, M. (2021). Physiological hypoxia restrains the senescence-associated secretory phenotype via AMPK-mediated mTOR suppression. <em>Molecular Cell</em>. https://doi.org/10.1016/j.molcel.2021.03.018

Vancouver

Vliet TV, Varela-Eirín M, Wang B, Borghesan M, Brandenburg S, Franzin R, et al. Physiological hypoxia restrains the senescence-associated secretory phenotype via AMPK-mediated mTOR suppression. Molecular Cell. 2021. doi:10.1016/j.molcel.2021.03.018.

BibTeX

@unpublished{thijmen2021Physio, title = {Physiological hypoxia restrains the senescence-associated secretory phenotype via AMPK-mediated mTOR suppression}, author = {Thijmen van Vliet and Marta Varela-Eirín and Boshi Wang and Michela Borghesan and Simone Brandenburg and Rossana Franzin and Konstantinos Evangelou and Marc A. Seelen and Vassilis G. Gorgoulis and Marco Demaria}, journal = {Molecular Cell}, year = {2021}, doi = {10.1016/j.molcel.2021.03.018}, }