Abstract
SIRT4, a member of the sirtuin family, has been implicated in the regulation of insulin secretion by modulation of glutamate dehydrogenase. However, the role of this enzyme in the regulation of metabolism in other tissues is unknown. In this study we investigated whether depletion of SIRT4 would enhance liver and muscle metabolic functions. To do this SIRT4 was knocked down using an adenoviral shRNA in mouse primary hepatocytes and myotubes. We observed a significant increase in gene expression of mitochondrial and fatty acid metabolism enzymes in hepatocytes with reduced SIRT4 levels. SIRT4 knockdown also increased SIRT1 mRNA and protein levels both in vitro and in vivo. In agreement with the increased fatty acid oxidation (FAO) gene expression, we showed a significant increase in FAO in SIRT4 knockdown primary hepatocytes compared with control, and this effect was dependent on SIRT1. In primary myotubes, knockdown of SIRT4 resulted in increased FAO, cellular respiration, and pAMPK levels. When SIRT4 was knocked down in vivo by tail vein injection of a shRNA adenovirus, we observed a significant increase in hepatic mitochondrial and FAO gene expression consistent with the findings in primary hepatocytes. Taken together these findings demonstrate that SIRT4 inhibition increases fat oxidative capacity in liver and mitochondrial function in muscle, which might provide therapeutic benefits for diseases associated with ectopic lipid storage such as type 2 diabetes.
Highlights
OCTOBER 15, 2010 VOLUME 285 NUMBER 42 and thereby suppresses insulin secretion from pancreatic beta cells [5, 6]
We observed a significant change in fatty acid oxidation genes including MCAD, PDK4, CPT1␣, PPAR␦, and PPAR␣ in SIRT4 knockdown primary hepatocytes compared with control
SIRT4 is a mitochondrial enzyme that has been reported to use NAD to ADP-ribosylate and down-regulate glutamate dehydrogenase activity. In this manuscript we present our studies testing the hypothesis that SIRT4 functions in mitochondrial oxidative metabolism
Summary
OCTOBER 15, 2010 VOLUME 285 NUMBER 42 and thereby suppresses insulin secretion from pancreatic beta cells [5, 6]. In addition to pancreatic beta cells, SIRT4 is highly expressed in brain, liver, kidney, and heart with moderate expression in skeletal muscle [5]. The function of SIRT4 in these other tissues is unknown. Based on its mitochondrial localization, we hypothesized that SIRT4 is involved in mitochondrial oxidative metabolism. We knocked down SIRT4 expression in primary hepatocytes and myotubes with an adenovirus expressing a SIRT4 shRNA and assessed fatty acid oxidation and oxygen consumption. We delivered an shRNA adenovirus in vivo to knock down SIRT4 in liver in mice
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