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  • Disruption of Acetyl-Lysine Turnover in Muscle Mitochondria Promotes Insulin Resistance and Redox Stress without Overt Respiratory Dysfunction.

Disruption of Acetyl-Lysine Turnover in Muscle Mitochondria Promotes Insulin Resistance and Redox Stress without Overt Respiratory Dysfunction.

Cell metabolism (2019-12-10)
Ashley S Williams, Timothy R Koves, Michael T Davidson, Scott B Crown, Kelsey H Fisher-Wellman, Maria J Torres, James A Draper, Tara M Narowski, Dorothy H Slentz, Louise Lantier, David H Wasserman, Paul A Grimsrud, Deborah M Muoio
ABSTRACT

This study sought to examine the functional significance of mitochondrial protein acetylation using a double knockout (DKO) mouse model harboring muscle-specific deficits in acetyl-CoA buffering and lysine deacetylation, due to genetic ablation of carnitine acetyltransferase and Sirtuin 3, respectively. DKO mice are highly susceptible to extreme hyperacetylation of the mitochondrial proteome and develop a more severe form of diet-induced insulin resistance than either single KO mouse line. However, the functional phenotype of hyperacetylated DKO mitochondria is largely normal. Of the >120 measures of respiratory function assayed, the most consistently observed traits of a markedly heightened acetyl-lysine landscape are enhanced oxygen flux in the context of fatty acid fuel and elevated rates of electron leak. In sum, the findings challenge the notion that lysine acetylation causes broad-ranging damage to mitochondrial quality and performance and raise the possibility that acetyl-lysine turnover, rather than acetyl-lysine stoichiometry, modulates redox balance and carbon flux.

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MOPS, ≥99.5% (titration)
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L-Aspartic acid, reagent grade, ≥98% (HPLC)
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Glicerolo, ≥99.5%
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Potassium cyanide, BioUltra, ≥98.0% (AT)
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CelLytic M, Cell Lysis Reagent, Suitable for Mammalian cell lysis and protein solubilization.
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