Abstract
Patt1 is a newly identified protein acetyltransferase that is highly expressed in liver. However, the role of Patt1 in liver is still unclear. We generated Patt1 liver-specific knockout (LKO) mice and mainly measured the effect of hepatic Patt1 deficiency on lipid metabolism. Hepatic Patt1 deficiency in male mice markedly decreases fat mass and dramatically alleviates age-associated accumulation of lipid droplets in liver. Moreover, hepatic Patt1 abrogation in male mice significantly reduces the liver triglyceride and free fatty acid levels, but it has no effect on liver cholesterol level, liver weight, and liver function. Consistently, primary cultured Patt1-deficient hepatocytes are resistant to palmitic acid-induced lipid accumulation, but hepatic Patt1 deficiency fails to protect male mice from high-fat diet-induced hepatic steatosis. Further studies show that hepatic Patt1 deficiency decreases fatty acid uptake, reduces lipid synthesis, and enhances fatty acid oxidation, which may contribute to the attenuated hepatic steatosis in Patt1 LKO mice. These results demonstrate that Patt1 plays an important role in hepatic lipid metabolism and have implications toward resolving age-associated hepatic steatosis.
Highlights
Patt1 is a newly identified protein acetyltransferase that is highly expressed in liver
These results show that hepatic Patt1 abrogation in male mice mainly leads to markedly decreased fat mass and fat content, which suggests that Patt1 has an important role in lipid metabolism
Lipid synthesis rates were significantly decreased in Patt1 knockout hepatocytes (Fig. 5M). These results show that hepatic Patt1 deficiency reduces fatty acid uptake and lipid synthesis, which should contribute to the attenuated liver steatosis in male Patt1 liverspecific knockout (LKO) mice
Summary
Patt is a newly identified protein acetyltransferase that is highly expressed in liver. Hepatic Patt deficiency in male mice markedly decreases fat mass and dramatically alleviates age-associated accumulation of lipid droplets in liver. Further studies show that hepatic Patt deficiency decreases fatty acid uptake, reduces lipid synthesis, and enhances fatty acid oxidation, which may contribute to the attenuated hepatic steatosis in Patt LKO mice. These results demonstrate that Patt plays an important role in hepatic lipid metabolism and have implications toward resolving age-associated hepatic steatosis.—Liu, Y., D. Liver Patt deficiency protects male mice from age-associated but not high-fat diet-induced hepatic steatosis.
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