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<scp>SIRT</scp>1 but not its increased expression is essential for lifespan extension in caloric‐restricted mice
Evi M. Mercken, Jia Hu, Susan M. Krzysik-Walker, Min Wei, Ying Li, Michael W. McBurney, Rafael de Cabo, Valter D. Longo
Aging Cell · 2013 · ▲ 111 citations
Abstract
The SIRT1 deacetylase is one of the best-studied putative mediators of some of the anti-aging effects of calorie restriction (CR), but its role in CR-dependent lifespan extension has not been demonstrated. We previously found that mice lacking both copies of SIRT1 displayed a shorter median lifespan than wild-type mice on an ad libitum diet. Here, we report that median lifespan extension in CR heterozygote SIRT1(+/-) mice was identical (51%) to that observed in wild-type mice, but SIRT1(+/-) mice displayed a higher frequency of certain pathologies. Although larger studies in additional genetic backgrounds are needed, these results provide strong initial evidence for the requirement of SIRT1 for the lifespan extension effects of CR, but suggest that its high expression is not required for CR-induced lifespan extension.
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- 10.1111/acel.12151
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- 2026-06-15 MST
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APA
Mercken, E.M., Hu, J., Krzysik-Walker, S.M., Wei, M., Li, Y., McBurney, M.W., Cabo, R.D., & Longo, V.D. (2013). <scp>SIRT</scp>1 but not its increased expression is essential for lifespan extension in caloric‐restricted mice. <em>Aging Cell</em>. https://doi.org/10.1111/acel.12151
Vancouver
Mercken EM, Hu J, Krzysik-Walker SM, Wei M, Li Y, McBurney MW, et al. <scp>SIRT</scp>1 but not its increased expression is essential for lifespan extension in caloric‐restricted mice. Aging Cell. 2013. doi:10.1111/acel.12151.
BibTeX
@article{evi2013scpSIR,
title = {<scp>SIRT</scp>1 but not its increased expression is essential for lifespan extension in caloric‐restricted mice},
author = {Evi M. Mercken and Jia Hu and Susan M. Krzysik-Walker and Min Wei and Ying Li and Michael W. McBurney and Rafael de Cabo and Valter D. Longo},
journal = {Aging Cell},
year = {2013},
doi = {10.1111/acel.12151},
}
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