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人类癌细胞中主要前列腺素甘油酯水解酶的鉴定。

Identification of the major prostaglandin glycerol ester hydrolase in human cancer cells.

作者信息

Manna Joseph D, Wepy James A, Hsu Ku-Lung, Chang Jae Won, Cravatt Benjamin F, Marnett Lawrence J

机构信息

From the A. B. Hancock Jr. Memorial Laboratory for Cancer Research, Departments of Biochemistry, Chemistry, and Pharmacology, Vanderbilt Institute of Chemical Biology, Center in Molecular Toxicology, Vanderbilt-Ingram Cancer Center, Vanderbilt University School of Medicine, Nashville, Tennessee 37232 and.

the Skaggs Institute for Chemical Biology and the Department of Chemical Physiology, The Scripps Research Institute, La Jolla, California 92037.

出版信息

J Biol Chem. 2014 Dec 5;289(49):33741-53. doi: 10.1074/jbc.M114.582353. Epub 2014 Oct 9.

DOI:10.1074/jbc.M114.582353
PMID:25301951
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4256310/
Abstract

Prostaglandin glycerol esters (PG-Gs) are produced as a result of the oxygenation of the endocannabinoid, 2-arachidonoylglycerol, by cyclooxygenase 2. Understanding the role that PG-Gs play in a biological setting has been difficult because of their sensitivity to enzymatic hydrolysis. By comparing PG-G hydrolysis across human cancer cell lines to serine hydrolase activities determined by activity-based protein profiling, we identified lysophospholipase A2 (LYPLA2) as a major enzyme responsible for PG-G hydrolysis. The principal role played by LYPLA2 in PGE2-G hydrolysis was confirmed by siRNA knockdown. Purified recombinant LYPLA2 hydrolyzed PG-Gs in the following order of activity: PGE2-G > PGF2α-G > PGD2-G; LYPLA2 hydrolyzed 1- but not 2-arachidonoylglycerol or arachidonoylethanolamide. Chemical inhibition of LYPLA2 in the mouse macrophage-like cell line, RAW264.7, elicited an increase in PG-G production. Our data indicate that LYPLA2 serves as a major PG-G hydrolase in human cells. Perturbation of this enzyme should enable selective modulation of PG-Gs without alterations in endocannabinoids, thereby providing a means to decipher the unique functions of PG-Gs in biology and disease.

摘要

前列腺素甘油酯(PG-Gs)是内源性大麻素2-花生四烯酸甘油酯经环氧化酶2氧化的产物。由于PG-Gs对酶促水解敏感,了解它们在生物环境中的作用一直很困难。通过比较人类癌细胞系中PG-G的水解与基于活性的蛋白质谱分析所确定的丝氨酸水解酶活性,我们确定溶血磷脂酶A2(LYPLA2)是负责PG-G水解的主要酶。通过小干扰RNA敲低证实了LYPLA2在PGE2-G水解中起的主要作用。纯化的重组LYPLA2对PG-Gs的水解活性顺序如下:PGE2-G > PGF2α-G > PGD2-G;LYPLA2水解1-花生四烯酸甘油酯,但不水解2-花生四烯酸甘油酯或花生四烯酸乙醇胺。在小鼠巨噬细胞样细胞系RAW264.7中对LYPLA2进行化学抑制会导致PG-G产量增加。我们的数据表明,LYPLA2是人类细胞中主要的PG-G水解酶。干扰这种酶应该能够在不改变内源性大麻素的情况下选择性调节PG-Gs,从而提供一种手段来解读PG-Gs在生物学和疾病中的独特功能。

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