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A high-fat diet and NAD(+) activate Sirt1 to rescue premature aging in cockayne syndrome.

Cell metabolism (2014-12-03)
Morten Scheibye-Knudsen, Sarah J Mitchell, Evandro F Fang, Teruaki Iyama, Theresa Ward, James Wang, Christopher A Dunn, Nagendra Singh, Sebastian Veith, Md Mahdi Hasan-Olive, Aswin Mangerich, Mark A Wilson, Mark P Mattson, Linda H Bergersen, Victoria C Cogger, Alessandra Warren, David G Le Couteur, Ruin Moaddel, David M Wilson, Deborah L Croteau, Rafael de Cabo, Vilhelm A Bohr
RÉSUMÉ

Cockayne syndrome (CS) is an accelerated aging disorder characterized by progressive neurodegeneration caused by mutations in genes encoding the DNA repair proteins CS group A or B (CSA or CSB). Since dietary interventions can alter neurodegenerative processes, Csb(m/m) mice were given a high-fat, caloric-restricted, or resveratrol-supplemented diet. High-fat feeding rescued the metabolic, transcriptomic, and behavioral phenotypes of Csb(m/m) mice. Furthermore, premature aging in CS mice, nematodes, and human cells results from aberrant PARP activation due to deficient DNA repair leading to decreased SIRT1 activity and mitochondrial dysfunction. Notably, β-hydroxybutyrate levels are increased by the high-fat diet, and β-hydroxybutyrate, PARP inhibition, or NAD(+) supplementation can activate SIRT1 and rescue CS-associated phenotypes. Mechanistically, CSB can displace activated PARP1 from damaged DNA to limit its activity. This study connects two emerging longevity metabolites, β-hydroxybutyrate and NAD(+), through the deacetylase SIRT1 and suggests possible interventions for CS.

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Roche
Acétyl-coenzyme A, 85% (Enzymatic and Absorbance), 2% (lithium)