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人前列环素和血栓素合酶催化15-氢过氧二十碳四烯酸的反应机制。

Reaction mechanisms of 15-hydroperoxyeicosatetraenoic acid catalyzed by human prostacyclin and thromboxane synthases.

作者信息

Yeh Hui-Chun, Tsai Ah-Lim, Wang Lee-Ho

机构信息

Division of Hematology, Department of Internal Medicine, University of Texas Health Science Center, 6431 Fannin, Houston, TX 77030, USA.

出版信息

Arch Biochem Biophys. 2007 May 15;461(2):159-68. doi: 10.1016/j.abb.2007.03.012. Epub 2007 Apr 11.

DOI:10.1016/j.abb.2007.03.012
PMID:17459323
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2041921/
Abstract

Prostacyclin synthase (PGIS) and thromboxane synthase (TXAS) are atypical cytochrome P450s. They do not require NADPH or dioxygen for isomerization of prostaglandin H(2) (PGH(2)) to produce prostacyclin (PGI(2)) and thromboxane A(2) (TXA(2)). PGI(2) and TXA(2) have opposing actions on platelet aggregation and blood vessel tone. In this report, we use a lipid hydroperoxide, 15-hydroperoxyeicosatetraenoic acid (15-HPETE), to explore the active site characteristics of PGIS and TXAS. The two enzymes transformed 15-HPETE not only into 13-hydroxy-14,15-epoxy-5,8,11-eicosatrienoic acid (13-OH-14,15-EET), like many microsomal P450s, but also to 15-ketoeicosatetraenoic acid (15-KETE) and 15-hydroxyeicosatetraenoic acid (15-HETE). 13-OH-14,15-EET and 15-KETE result from homolytic cleavage of the O-O bond, whereas 15-HETE results from heterolytic cleavage, a common peroxidase pathway. About 80% of 15-HPETE was homolytically cleaved by PGIS and 60% was homolytically cleaved by TXAS. The V(max) of homolytic cleavage is 3.5-fold faster than heterolytic cleavage for PGIS-catalyzed reactions (1100 min(-1)vs. 320 min(-1)) and 1.4-fold faster for TXAS (170 min(-1)vs. 120 min(-1)). Similar K(M) values for homolytic and heterolytic cleavages were found for PGIS ( approximately 60 microM 15-HPETE) and TXAS ( approximately 80 microM 15-HPETE), making PGIS a more efficient catalyst for the 15-HPETE reaction.

摘要

前列环素合酶(PGIS)和血栓素合酶(TXAS)属于非典型细胞色素P450。它们在将前列腺素H2(PGH2)异构化为前列环素(PGI2)和血栓素A2(TXA2)的过程中不需要NADPH或双加氧。PGI2和TXA2在血小板聚集和血管张力方面具有相反的作用。在本报告中,我们使用脂质过氧化氢15-氢过氧化二十碳四烯酸(15-HPETE)来探究PGIS和TXAS的活性位点特征。这两种酶不仅能像许多微粒体P450一样将15-HPETE转化为13-羟基-14,15-环氧-5,8,11-二十碳三烯酸(13-OH-14,15-EET),还能将其转化为15-酮基二十碳四烯酸(15-KETE)和15-羟基二十碳四烯酸(15-HETE)。13-OH-14,15-EET和15-KETE是由O-O键的均裂产生的,而15-HETE是由异裂产生的,这是一种常见的过氧化物酶途径。约80%的15-HPETE被PGIS均裂,60%被TXAS均裂。对于PGIS催化的反应,均裂的V(max)比异裂快3.5倍(1100分钟-1对320分钟-1),对于TXAS则快1.4倍(170分钟-1对120分钟-1)。PGIS(约60微摩尔15-HPETE)和TXAS(约80微摩尔15-HPETE)的均裂和异裂的K(M)值相似,这使得PGIS成为15-HPETE反应更有效的催化剂。

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