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Hypoxia extends lifespan and neurological function in a mouse model of aging
Robert S. Rogers, Hong Wang, Timothy Durham, Jonathan A. Stefely, Norah A. Owiti, Andrew L. Markhard, L Sandler, Tsz‐Leung To, Vamsi K. Mootha
PLoS Biology · 2023 · ▲ 45 citations
Genomic instability
Cellular senescence
Caloric restriction
Yeast
C. elegans
Cell culture / in vitro
Mouse
Abstract
There is widespread interest in identifying interventions that extend healthy lifespan. Chronic continuous hypoxia delays the onset of replicative senescence(definition) in cultured cells and extends lifespan in yeast, nematodes, and fruit flies. Here, we asked whether chronic continuous hypoxia is beneficial in mammalian aging. We utilized the Ercc1 Δ/- mouse model of accelerated aging given that these mice are born developmentally normal but exhibit anatomic, physiological, and biochemical features of aging across multiple organs. Importantly, they exhibit a shortened lifespan that is extended by dietary restriction, the most potent aging intervention across many organisms. We report that chronic continuous 11% oxygen commenced at 4 weeks of age extends lifespan by 50% and delays the onset of neurological debility in Ercc1 Δ/- mice. Chronic continuous hypoxia did not impact food intake and did not significantly affect markers of DNA damage or senescence, suggesting that hypoxia did not simply alleviate the proximal effects of the Ercc1 mutation, but rather acted downstream via unknown mechanisms. To the best of our knowledge, this is the first study to demonstrate that "oxygen restriction" can extend lifespan in a mammalian model of aging.
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- DOI
- 10.1371/journal.pbio.3002117
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- 2026-06-29 MST
Cite this
APA
Rogers, R.S., Wang, H., Durham, T., Stefely, J.A., Owiti, N.A., Markhard, A.L., Sandler, L., To, T., & Mootha, V.K. (2023). Hypoxia extends lifespan and neurological function in a mouse model of aging. <em>PLoS Biology</em>. https://doi.org/10.1371/journal.pbio.3002117
Vancouver
Rogers RS, Wang H, Durham T, Stefely JA, Owiti NA, Markhard AL, et al. Hypoxia extends lifespan and neurological function in a mouse model of aging. PLoS Biology. 2023. doi:10.1371/journal.pbio.3002117.
BibTeX
@article{robert2023Hypoxi,
title = {Hypoxia extends lifespan and neurological function in a mouse model of aging},
author = {Robert S. Rogers and Hong Wang and Timothy Durham and Jonathan A. Stefely and Norah A. Owiti and Andrew L. Markhard and L Sandler and Tsz‐Leung To and Vamsi K. Mootha},
journal = {PLoS Biology},
year = {2023},
doi = {10.1371/journal.pbio.3002117},
}
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