Serine active site containing protein 1 depletion alters lipid metabolism and protects against high fat diet-induced obesity in mice

Although the serine active site containing 1 (SERAC1) protein is essential for cardiolipin remodeling and cholesterol transfer, its physiological role in whole-body energy metabolism remains unclear. Thus, we investigated the role of SERAC1 in lipid distribution and metabolism in mice. CRISPR/Cas9 w...

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Veröffentlicht in:Metabolism, clinical and experimental clinical and experimental, 2022-09, Vol.134, p.155244-155244, Article 155244
Hauptverfasser: Du, Miaomiao, Li, Xueyun, Xiao, Fangyi, Fu, Yinxu, Shi, Yu, Guo, Sihan, Chen, Lifang, Shen, Lu, Wang, Lan, Cheng, Huang, Li, Hao, Xie, Anran, Zhou, Yaping, Yang, Kaiqiang, Fang, Hezhi, Lyu, Jianxin, Zhao, Qiongya
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Sprache:eng
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Zusammenfassung:Although the serine active site containing 1 (SERAC1) protein is essential for cardiolipin remodeling and cholesterol transfer, its physiological role in whole-body energy metabolism remains unclear. Thus, we investigated the role of SERAC1 in lipid distribution and metabolism in mice. CRISPR/Cas9 was used to create homozygous Serac1 knockout mice. A range of methods, including electron microscopy, histological analysis, DNA sequencing, glucose and insulin tolerance tests, and biochemical analysis of serum lipid levels, were used to assess lipid distribution and rates of lipid synthesis in mice. We found that Serac1 depletion in mice prevented high-fat diet-induced obesity but did not affect energy expenditure. The liver was affected by Serac1 depletion, but adipose tissues were not. Serac1 depletion was shown to impair cholesterol transfer from the liver to the serum and led to an imbalance in cholesterol distribution. The livers from mice with Serac1 depletion showed increased cholesterol synthesis because the levels of cholesterol synthesis enzymes were upregulated. Moreover, the accumulation of hepatic lipid droplets in mice with Serac1 depletion were decreased, suggesting that SERAC1 depletion may decrease the risk for hepatic steatosis in high fat diet-induced mice. Our findings demonstrate that SERAC1 can serve as a potential target for the treatment or prevention of diet-induced hepatic lipid metabolic disorders. [Display omitted] •SERAC1 alters lipid metabolism in the liver of mice.•SERAC1 deletion protects against high fat diet-induced obesity in mice.•SERAC1 deletion alters the synthesis and storage of cholesterol in the liver of HFD-fed mice.
ISSN:0026-0495
1532-8600
DOI:10.1016/j.metabol.2022.155244