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Nrf2 Signaling and the Slowed Aging Phenotype: Evidence from Long-Lived Models
Danielle R. Bruns, Joshua C. Drake, Laurie M. Biela, Frederick F. Peelor, Benjamin F. Miller, Karyn L. Hamilton
Oxidative Medicine and Cellular Longevity · 2015 · ▲ 108 citations
Abstract
Studying long-lived animals provides novel insight into shared characteristics of aging and represents a unique model to elucidate approaches to prevent chronic disease. Oxidant stress underlies many chronic diseases and resistance to stress is a potential mechanism governing slowed aging. The transcription factor nuclear factor (erythroid-derived 2)-like 2 is the "master regulator" of cellular antioxidant defenses. Nrf2 is upregulated by some longevity promoting interventions and may play a role in regulating species longevity. However, Nrf2 expression and activity in long-lived models have not been well described. Here, we review evidence for altered Nrf2 signaling in a variety of slowed aging models that accomplish lifespan extension via pharmacological, nutritional, evolutionary, genetic, and presumably epigenetic means.
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- 10.1155/2015/732596
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- 2026-06-22 MST
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APA
Bruns, D.R., Drake, J.C., Biela, L.M., Peelor, F.F., Miller, B.F., & Hamilton, K.L. (2015). Nrf2 Signaling and the Slowed Aging Phenotype: Evidence from Long-Lived Models. <em>Oxidative Medicine and Cellular Longevity</em>. https://doi.org/10.1155/2015/732596
Vancouver
Bruns DR, Drake JC, Biela LM, Peelor FF, Miller BF, Hamilton KL. Nrf2 Signaling and the Slowed Aging Phenotype: Evidence from Long-Lived Models. Oxidative Medicine and Cellular Longevity. 2015. doi:10.1155/2015/732596.
BibTeX
@article{danielle2015NrfSig,
title = {Nrf2 Signaling and the Slowed Aging Phenotype: Evidence from Long-Lived Models},
author = {Danielle R. Bruns and Joshua C. Drake and Laurie M. Biela and Frederick F. Peelor and Benjamin F. Miller and Karyn L. Hamilton},
journal = {Oxidative Medicine and Cellular Longevity},
year = {2015},
doi = {10.1155/2015/732596},
}
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