Sirt3-mediated deacetylation of evolutionarily conserved lysine 122 regulates MnSOD activity in response to stress |
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| Authors: | Tao Randa Coleman Mitchell C Pennington J Daniel Ozden Ozkan Park Seong-Hoon Jiang Haiyan Kim Hyun-Seok Flynn Charles Robb Hill Salisha Hayes McDonald W Olivier Alicia K Spitz Douglas R Gius David |
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| Institution: | Howard Hughes Medical Institute and Molecular Radiation Oncology, Radiation Oncology Branch, Center for Cancer Research, NCI, NIH, Bethesda, MD 20892, USA. |
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| Abstract: | Genetic deletion of the mitochondrial deacetylase sirtuin-3 (Sirt3) results in increased mitochondrial superoxide, a tumor-permissive environment, and mammary tumor development. MnSOD contains a nutrient- and ionizing radiation (IR)-dependent reversible acetyl-lysine that is hyperacetylated in Sirt3?/? livers at 3 months of age. Livers of Sirt3?/? mice exhibit decreased MnSOD activity, but not immunoreactive protein, relative to wild-type livers. Reintroduction of wild-type but not deacetylation null Sirt3 into Sirt3?/? MEFs deacetylated lysine and restored MnSOD activity. Site-directed mutagenesis of MnSOD lysine 122 to an arginine, mimicking deacetylation (lenti-MnSOD(K122-R)), increased MnSOD activity when expressed in MnSOD?/? MEFs, suggesting acetylation directly regulates function. Furthermore, infection of Sirt3?/? MEFs with lenti-MnSOD(K122-R) inhibited in vitro immortalization by an oncogene (Ras), inhibited IR-induced genomic instability, and decreased mitochondrial superoxide. Finally, IR was unable to induce MnSOD deacetylation or activity in Sirt3?/? livers, and these irradiated livers displayed significant IR-induced cell damage and microvacuolization in their hepatocytes. |
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