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Mitohormesis in Mice via Sustained Basal Activation of Mitochondrial and Antioxidant Signaling.

ABSTRACT: Transient mitochondrial stress can promote beneficial physiological responses and longevity, termed "mitohormesis." To interrogate mitohormetic pathways in mammals, we generated mice in which mitochondrial superoxide dismutase 2 (SOD2) can be knocked down in an inducible and reversible manner (iSOD2-KD mice). Depleting SOD2 only during embryonic development did not cause post-natal lethality, allowing us to probe adaptive responses to mitochondrial oxidant stress in adult mice. Liver from adapted mice had increased mitochondrial biogenesis and antioxidant gene expression and fewer reactive oxygen species. Gene expression analysis implicated non-canonical activation of the Nrf2 antioxidant and PPAR?/PGC-1? mitochondrial signaling pathways in this response. Transient SOD2 knockdown in embryonic fibroblasts from iSOD2-KD mice also resulted in adaptive mitochondrial changes, enhanced antioxidant capacity, and resistance to a subsequent oxidant challenge. We propose that mitohormesis in response to mitochondrial oxidative stress in mice involves sustained activation of mitochondrial and antioxidant signaling pathways to establish a heightened basal antioxidant state.

SUBMITTER: Cox CS 

PROVIDER: S-EPMC6221994 | biostudies-literature | 2018 Nov

REPOSITORIES: biostudies-literature

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Mitohormesis in Mice via Sustained Basal Activation of Mitochondrial and Antioxidant Signaling.

Cox Carly S CS   McKay Sharen E SE   Holmbeck Marissa A MA   Christian Brooke E BE   Scortea Andrew C AC   Tsay Annie J AJ   Newman Laura E LE   Shadel Gerald S GS  

Cell metabolism 20180816 5

Transient mitochondrial stress can promote beneficial physiological responses and longevity, termed "mitohormesis." To interrogate mitohormetic pathways in mammals, we generated mice in which mitochondrial superoxide dismutase 2 (SOD2) can be knocked down in an inducible and reversible manner (iSOD2-KD mice). Depleting SOD2 only during embryonic development did not cause post-natal lethality, allowing us to probe adaptive responses to mitochondrial oxidant stress in adult mice. Liver from adapte  ...[more]

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