Salt-inducible kinase 2 links transcriptional coactivator p300 phosphorylation to the prevention of ChREBP-dependent hepatic steatosis in mice
Julien Bricambert, Jonatan Miranda, Fadila Benhamed, Jean Girard, Catherine Postic, Renaud Dentin
Julien Bricambert, Jonatan Miranda, Fadila Benhamed, Jean Girard, Catherine Postic, Renaud Dentin
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Research Article Metabolism

Salt-inducible kinase 2 links transcriptional coactivator p300 phosphorylation to the prevention of ChREBP-dependent hepatic steatosis in mice

Abstract

Obesity and type 2 diabetes are associated with increased lipogenesis in the liver. This results in fat accumulation in hepatocytes, a condition known as hepatic steatosis, which is a form of nonalcoholic fatty liver disease (NAFLD), the most common cause of liver dysfunction in the United States. Carbohydrate-responsive element–binding protein (ChREBP), a transcriptional activator of glycolytic and lipogenic genes, has emerged as a major player in the development of hepatic steatosis in mice. However, the molecular mechanisms enhancing its transcriptional activity remain largely unknown. In this study, we have identified the histone acetyltransferase (HAT) coactivator p300 and serine/threonine kinase salt-inducible kinase 2 (SIK2) as key upstream regulators of ChREBP activity. In cultured mouse hepatocytes, we showed that glucose-activated p300 acetylated ChREBP on Lys672 and increased its transcriptional activity by enhancing its recruitment to its target gene promoters. SIK2 inhibited p300 HAT activity by direct phosphorylation on Ser89, which in turn decreased ChREBP-mediated lipogenesis in hepatocytes and mice overexpressing SIK2. Moreover, both liver-specific SIK2 knockdown and p300 overexpression resulted in hepatic steatosis, insulin resistance, and inflammation, phenotypes reversed by SIK2/p300 co-overexpression. Finally, in mouse models of type 2 diabetes and obesity, low SIK2 activity was associated with increased p300 HAT activity, ChREBP hyperacetylation, and hepatic steatosis. Our findings suggest that inhibition of hepatic p300 activity may be beneficial for treating hepatic steatosis in obesity and type 2 diabetes and identify SIK2 activators and specific p300 inhibitors as potential targets for pharmaceutical intervention.

Authors

Julien Bricambert, Jonatan Miranda, Fadila Benhamed, Jean Girard, Catherine Postic, Renaud Dentin

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Figure 3

p300 promotes fatty acid synthesis through the regulation of ChREBP activity by acetylation.

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p300 promotes fatty acid synthesis through the regulation of ChREBP acti...
Effects of p300 overexpression or p300 silencing on glucose and lipid metabolism in hepatocytes incubated in the presence of insulin (100 nM) and either 5 or 25 mM glucose (G5 or G25) for 18 hours. (A) ChIP assay showing p300 and ChREBP recruitment to the L-PK promoter following treatment with glucose. Data are the average of 3 independent experiments (mean ± SEM; *P < 0.05). (B) ChoRE-luc reporter activity in HepG2 cells. Data are the average of 5 independent experiments (mean ± SEM; *P < 0.05). (C) Relative expression of genes encoding LPK and FAS measured by quantitative PCR (data represent mean ± SEM of 3 independent experiments; *P < 0.01). (D) Western blot analysis of p300 and acetylated ChREBP levels. Data are representative of 3 independent experiments. (E) Left: HepG2 cells overexpressing epitope-tagged p300 and ChREBP proteins were incubated 1 hour in the presence of [3H]acetate. FLAG-ChREBP was immunoprecipitated. An autoradiogram of 3H-acetylated-FLAG-ChREBP is shown. Data are representative of 3 independent experiments. Right: ChREBP transcriptional activity was measured in HepG2 cells overexpressing p300 and a Gal4-ChREBP fusion protein. Transcriptional activity was calculated from a ratio of luciferase to β-gal activities. Experiments were carried out in triplicate. Data represent mean ± SEM; *P < 0.01. (F) Oil red O staining of neutral lipids. Original magnification, ×200. Data are representative of 3 independent experiments. (G) TG concentrations. Data are representative of 3 independent experiments. Data represent mean ± SEM; *P < 0.01.