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W4367175056 abstract "Perturbed metabolism of ammonia, an endogenous cytotoxin, causes mitochondrial dysfunction, reduced NAD+ /NADH (redox) ratio, and postmitotic senescence. Sirtuins are NAD+ -dependent deacetylases that delay senescence. In multiomics analyses, NAD metabolism and sirtuin pathways are enriched during hyperammonemia. Consistently, NAD+ -dependent Sirtuin3 (Sirt3) expression and deacetylase activity were decreased, and protein acetylation was increased in human and murine skeletal muscle/myotubes. Global acetylomics and subcellular fractions from myotubes showed hyperammonemia-induced hyperacetylation of cellular signaling and mitochondrial proteins. We dissected the mechanisms and consequences of hyperammonemia-induced NAD metabolism by complementary genetic and chemical approaches. Hyperammonemia inhibited electron transport chain components, specifically complex I that oxidizes NADH to NAD+ , that resulted in lower redox ratio. Ammonia also caused mitochondrial oxidative dysfunction, lower mitochondrial NAD+ -sensor Sirt3, protein hyperacetylation, and postmitotic senescence. Mitochondrial-targeted Lactobacillus brevis NADH oxidase (MitoLbNOX), but not NAD+ precursor nicotinamide riboside, reversed ammonia-induced oxidative dysfunction, electron transport chain supercomplex disassembly, lower ATP and NAD+ content, protein hyperacetylation, Sirt3 dysfunction and postmitotic senescence in myotubes. Even though Sirt3 overexpression reversed ammonia-induced hyperacetylation, lower redox status or mitochondrial oxidative dysfunction were not reversed. These data show that acetylation is a consequence of, but is not the mechanism of, lower redox status or oxidative dysfunction during hyperammonemia. Targeting NADH oxidation is a potential approach to reverse and potentially prevent ammonia-induced postmitotic senescence in skeletal muscle. Since dysregulated ammonia metabolism occurs with aging, and NAD+ biosynthesis is reduced in sarcopenia, our studies provide a biochemical basis for cellular senescence and have relevance in multiple tissues." @default.
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W4367175056 date "2023-04-26" @default.
W4367175056 modified "2023-10-15" @default.
W4367175056 title "Dysregulated cellular redox status during hyperammonemia causes mitochondrial dysfunction and senescence by inhibiting sirtuin‐mediated deacetylation" @default.
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W4367175056 cites W1964618783 @default.
W4367175056 cites W1965488403 @default.
W4367175056 cites W1988226967 @default.
W4367175056 cites W2004335766 @default.
W4367175056 cites W2005910631 @default.
W4367175056 cites W2013841882 @default.
W4367175056 cites W2022664710 @default.
W4367175056 cites W2022837727 @default.
W4367175056 cites W2031011363 @default.
W4367175056 cites W2058687082 @default.
W4367175056 cites W2060708905 @default.
W4367175056 cites W2064437293 @default.
W4367175056 cites W2066445380 @default.
W4367175056 cites W2082393205 @default.
W4367175056 cites W2111199460 @default.
W4367175056 cites W2114070867 @default.
W4367175056 cites W2127764242 @default.
W4367175056 cites W2142582331 @default.
W4367175056 cites W2157296254 @default.
W4367175056 cites W2305670323 @default.
W4367175056 cites W2314595191 @default.
W4367175056 cites W2419530119 @default.
W4367175056 cites W2495915470 @default.
W4367175056 cites W2513682992 @default.
W4367175056 cites W2516751723 @default.
W4367175056 cites W2530388030 @default.
W4367175056 cites W2562815196 @default.
W4367175056 cites W2764315148 @default.
W4367175056 cites W2786518893 @default.
W4367175056 cites W2887157456 @default.
W4367175056 cites W2889168199 @default.
W4367175056 cites W2889580960 @default.
W4367175056 cites W2901164269 @default.
W4367175056 cites W2946748166 @default.
W4367175056 cites W2954246968 @default.
W4367175056 cites W2964813970 @default.
W4367175056 cites W2977115073 @default.
W4367175056 cites W2984413344 @default.
W4367175056 cites W2992356442 @default.
W4367175056 cites W2997046468 @default.
W4367175056 cites W2998682840 @default.
W4367175056 cites W3116140574 @default.
W4367175056 cites W3127609884 @default.
W4367175056 cites W3173414986 @default.
W4367175056 cites W3189809100 @default.
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W4367175056 cites W4223546533 @default.
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W4367175056 doi "https://doi.org/10.1111/acel.13852" @default.
W4367175056 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37101412" @default.
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