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环氧化酶变构作用,脂肪酸介导的环氧化酶同型二聚体单体间的相互作用。

Cyclooxygenase Allosterism, Fatty Acid-mediated Cross-talk between Monomers of Cyclooxygenase Homodimers.

作者信息

Yuan Chong, Sidhu Ranjinder S, Kuklev Dmitry V, Kado Yuji, Wada Masayuki, Song Inseok, Smith William L

机构信息

Department of Biological Chemistry, University of Michigan, Ann Arbor, Michigan 48109, USA.

出版信息

J Biol Chem. 2009 Apr 10;284(15):10046-55. doi: 10.1074/jbc.M808634200. Epub 2009 Feb 12.

DOI:10.1074/jbc.M808634200
PMID:19218248
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2665059/
Abstract

Prostaglandin endoperoxide H synthases (PGHSs) 1 and 2, also known as cyclooxygenases (COXs), catalyze the oxygenation of arachidonic acid (AA) in the committed step in prostaglandin (PG) biosynthesis. PGHSs are homodimers that display half of sites COX activity with AA; thus, PGHSs function as conformational heterodimers. Here we show that, during catalysis, fatty acids (FAs) are bound at both COX sites of a PGHS-2 dimer. Initially, an FA binds with high affinity to one COX site of an unoccupied homodimer. This monomer becomes an allosteric monomer, and it causes the partner monomer to become the catalytic monomer that oxygenates AA. A variety of FAs can bind with high affinity to the COX site of the monomer that becomes the allosteric monomer. Importantly, the efficiency of AA oxygenation is determined by the nature of the FA bound to the allosteric monomer. When tested with low concentrations of saturated and monounsaturated FAs (e.g. oleic acid), the rates of AA oxygenation are typically 1.5-2 times higher with PGHS-2 than with PGHS-1. These different kinetic behaviors of PGHSs may account for the ability of PGHS-2 but not PGHS-1 to efficiently oxygenate AA in intact cells when AA is a small fraction of the FA pool such as during "late phase" PG synthesis.

摘要

前列腺素内过氧化物H合酶(PGHSs)1和2,也被称为环氧化酶(COXs),在前列腺素(PG)生物合成的关键步骤中催化花生四烯酸(AA)的氧化。PGHSs是同型二聚体,对AA表现出一半位点的COX活性;因此,PGHSs作为构象异二聚体发挥作用。在此我们表明,在催化过程中,脂肪酸(FAs)结合在PGHS - 2二聚体的两个COX位点上。最初,一种FA以高亲和力结合到一个未占据的同型二聚体的一个COX位点上。这个单体变成一个变构单体,并导致伙伴单体成为氧化AA的催化单体。多种FAs可以以高亲和力结合到变成变构单体的单体的COX位点上。重要的是,AA氧化的效率由结合到变构单体上的FA的性质决定。当用低浓度的饱和脂肪酸和单不饱和脂肪酸(如油酸)进行测试时,PGHS - 2催化AA氧化的速率通常比PGHS - 1高1.5 - 2倍。当AA在FA池中占比很小(如在“晚期”PG合成期间)时,PGHSs的这些不同动力学行为可能解释了PGHS - 2而非PGHS - 1在完整细胞中有效氧化AA的能力。

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