Anoxic injury accelerates phosphatidylcholine degradation in cultured cardiac myocytes by phospholipase C

[摘要]

In neonatal cultured cardiac myocytes under normoxic conditions, ³²P_i incorporation pattern into various phospholipids, and double-labeling experiments with ³²P_i and [³H]methyl choline, suggest that phosphatidylcholine atid phosphatidylinositol are turned over rapidly, whereas the turnover of phosphatidylethanolamine is probably much slower. While increased levels of the corresponding lysophospholipids were not found under anoxia, release of diacylgycerol and phosphorylcholine was observed. These data strongly suggest that phospholipase C, and not phospholipase A₂, is involved in phospholipid degradation in cultured cardiomyocytes under anoxic conditions.

[发布日期] [发布机构]

[效力级别] [学科分类] 生物化学/生物物理

[关键词] Cultured cardiomyocyte;Anoxia;Phospholipid degradation;Phospholipase C;PC;phosphatidylcholine;PE;phosphatidylethanolamine;PI;phosphatidylinositol;PS;phosphatidylserine;SM;sphingomyelin;PA;pliosphatidic acid;PIP;phosphatidylinositol monophosphate;PIP2;phosphatidylinositol diphosphate;LPC;lysophosphatidylcholine;TAG;triacylglycerol;DAG;diacylglycerol;AA;arachidonic acid;CE;cholesterol ester [时效性]

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