底物诱导的前列腺素H合酶自由基。

Journal of lipid mediators Pub Date : 1993-03-01
R J Kulmacz, G Palmer, A L Tsai
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引用次数: 0

摘要

绵羊PGH合成酶与花生四烯酸或氢过氧化物反应产生几种酪氨酸自由基,这些自由基可以通过电子顺磁共振(EPR)光谱来区分。我们将EPR信号的时间序列与血红素中心的光学变化以及产物的形成联系起来。用血红素(Fe-PGHS)或锰原卟啉IX (Mn- pghs)重组合酶。Fe-PGHS与等摩尔花生四烯酸酯孵生后,快速出现宽的双链酪氨酸自由基EPR信号(34 G峰谷);强度与最大值相差7 s。在接下来的10秒内,双重态让位给宽单重态(32 G峰谷),单重态在46秒达到峰值,然后缓慢衰减。电子吸收光谱表明,过氧化物酶化合物I的形成在1 s内完成;过氧化物酶化合物II的积累与宽双峰酪氨酸自由基的积累平行。PGG2和PGH2在反应前5 s积累较快;12s后剩余少量花生四烯酸。因此,在Fe-PGHS催化环加氧酶的过程中,酪氨酸自由基具有宽双态EPR信号,是从花生四烯酸酯中提取13S氢原子的最佳候选氧化物质。将Mn-PGHS与花生四烯酸酯孵养也会导致氧化过氧化物酶循环中间体、蛋白质连接自由基和前列腺素的快速生成。Mn-PGHS的自由基信号(单线态,36 G峰谷)与Fe-PGHS不同,但Mn-PGHS自由基的动力学与参与环加氧酶催化一致。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Substrate-induced free radicals in prostaglandin H synthase.

Reaction of ovine PGH synthase with arachidonic acid or hydroperoxides produces several tyrosine radical species that can be distinguished by electron paramagnetic resonance (EPR) spectroscopy. We have correlated the temporal sequence of the EPR signals with optical changes of the heme center, and with product formation. The synthase was reconstituted with either heme (Fe-PGHS) or Mn protoporphyrin IX (Mn-PGHS). Incubation of Fe-PGHS with equimolar arachidonate resulted in rapid appearance of a wide doublet tyrosyl radical EPR signal (34 G peak-to-trough); the intensity was near maximal by 7 s. The doublet gave way over the next 10 s to a wide singlet (32 G peak-to-trough) which peaked at 46 s and then decayed slowly. Electronic absorbance spectra indicated that formation of peroxidase Compound I was complete within 1 s; accumulation of peroxidase Compound II paralleled accumulation of the wide doublet tyrosyl radical. PGG2 and PGH2 accumulated rapidly during the first 5 s of reaction; little arachidonate remained after 12 s. The tyrosyl radical giving the wide doublet EPR signal is thus the best candidate for the oxidizing species postulated to abstract the 13S hydrogen atom from arachidonate during cyclooxygenase catalysis by Fe-PGHS. Incubation of Mn-PGHS with arachidonate also led to rapid generation of an oxidized peroxidase cycle intermediate, a protein-linked free radical, and prostaglandins. The radical signal seen with Mn-PGHS (singlet, 36 G peak-to-trough) was distinct from those observed with Fe-PGHS, but the kinetics of the Mn-PGHS radical were consistent with participation in cyclooxygenase catalysis.

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