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Schmidlin, Cody J.; Dodson, Matthew B.; Madhavan, Lalitha; Zhang, Donna D.
Free radical biology & medicine, 04/2019, Volume: 134Journal Article
NRF2, a transcription factor that has been deemed the master regulator of cellular redox homeostasis, declines with age. NRF2 transcriptionally upregulates genes that combat oxidative stress; therefore, loss of NRF2 allows oxidative stress to go unmitigated and drive the aging phenotype. Oxidative stress is a common theme among the key features associated with the aging process, collectively referred to as the “Hallmarks of Aging”, as it disrupts proteostasis, alters genomic stability, and leads to cell death. In this review, we outline the role that oxidative stress and the reduction of NRF2 play in each of the Hallmarks of Aging, including how they contribute to the onset of neurodegenerative disorders, cancer, and other age-related pathologies. Display omitted •NRF2 plays a role in each of the Hallmarks of Aging.•Decreased NRF2 expression contributes to the aging process.•Neurodegeneration, cancer, and other age-related pathologies are a result of lower NRF2 levels and increased oxidative stress.
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