由 PNPLA7 和 PNPLA8 驱动的肝磷脂酰胆碱分解代谢为蛋氨酸循环提供内源性胆碱以补充甲基。

Hepatic phosphatidylcholine catabolism driven by PNPLA7 and PNPLA8 supplies endogenous choline to replenish the methionine cycle with methyl groups.

机构信息

Laboratory of Biomembrane, Department of Basic Medical Sciences, Tokyo Metropolitan Institute of Medical Science, Tokyo 156-8506, Japan; Lipid Metabolism Project, Department of Advanced Science for Biomolecules, Tokyo Metropolitan Institute of Medical Science, Tokyo 156-8506, Japan.

Laboratory of Biomembrane, Department of Basic Medical Sciences, Tokyo Metropolitan Institute of Medical Science, Tokyo 156-8506, Japan; Laboratory of Microenvironmental Metabolic Health Sciences, Center for Disease Biology and Integrative Medicine, Graduate School of Medicine, The University of Tokyo, Tokyo 113-8655, Japan.

出版信息

Cell Rep. 2023 Feb 28;42(2):111940. doi: 10.1016/j.celrep.2022.111940. Epub 2023 Jan 30.

DOI:10.1016/j.celrep.2022.111940

PMID:36719796

Abstract

Choline supplies methyl groups for regeneration of methionine and the methyl donor S-adenosylmethionine in the liver. Here, we report that the catabolism of membrane phosphatidylcholine (PC) into water-soluble glycerophosphocholine (GPC) by the phospholipase/lysophospholipase PNPLA8-PNPLA7 axis enables endogenous choline stored in hepatic PC to be utilized in methyl metabolism. PNPLA7-deficient mice show marked decreases in hepatic GPC, choline, and several metabolites related to the methionine cycle, accompanied by various signs of methionine insufficiency, including growth retardation, hypoglycemia, hypolipidemia, increased energy consumption, reduced adiposity, increased fibroblast growth factor 21 (FGF21), and an altered histone/DNA methylation landscape. Moreover, PNPLA8-deficient mice recapitulate most of these phenotypes. In contrast to wild-type mice fed a methionine/choline-deficient diet, both knockout strains display decreased hepatic triglyceride, likely via reductions of lipogenesis and GPC-derived glycerol flux. Collectively, our findings highlight the biological importance of phospholipid catabolism driven by PNPLA8/PNPLA7 in methyl group flux and triglyceride synthesis in the liver.

摘要

胆碱为肝脏中蛋氨酸和甲基供体 S-腺苷甲硫氨酸的再生提供甲基。在这里，我们报告了膜磷脂酰胆碱（PC）通过磷脂酶/溶血磷脂酶 PNPLA8-PNPLA7 轴分解为水溶性甘油磷酸胆碱（GPC），从而使储存在肝 PC 中的内源性胆碱能够用于甲基代谢。PNPLA7 缺陷型小鼠的肝 GPC、胆碱和几种与蛋氨酸循环相关的代谢物显著减少，伴随着各种蛋氨酸不足的迹象，包括生长迟缓、低血糖、低血脂、能量消耗增加、脂肪减少、成纤维细胞生长因子 21（FGF21）增加和组蛋白/DNA 甲基化模式改变。此外，PNPLA8 缺陷型小鼠重现了这些表型中的大多数。与用蛋氨酸/胆碱缺乏饮食喂养的野生型小鼠不同，两种敲除系小鼠的肝甘油三酯均减少，可能是通过降低脂肪生成和 GPC 衍生的甘油流量所致。总之，我们的研究结果强调了由 PNPLA8/PNPLA7 驱动的磷脂分解在肝脏中甲基流和甘油三酯合成中的生物学重要性。

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由 PNPLA7 和 PNPLA8 驱动的肝磷脂酰胆碱分解代谢为蛋氨酸循环提供内源性胆碱以补充甲基。

Hepatic phosphatidylcholine catabolism driven by PNPLA7 and PNPLA8 supplies endogenous choline to replenish the methionine cycle with methyl groups.

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