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过氧化物酶的氧化还原循环会抑制阿司匹林对前列腺素H2合酶的乙酰化作用。

Acetylation of prostaglandin H2 synthases by aspirin is inhibited by redox cycling of the peroxidase.

作者信息

Bala Manju, Chin Cindy N, Logan Asha T, Amin Taneem, Marnett Lawrence J, Boutaud Olivier, Oates John A

机构信息

Department of Pharmacology, Vanderbilt University, 2200 Pierce Avenue, 514 RRB, Nashville, TN 37232-6602, United States.

出版信息

Biochem Pharmacol. 2008 Apr 1;75(7):1472-81. doi: 10.1016/j.bcp.2007.12.005. Epub 2007 Dec 27.

DOI:10.1016/j.bcp.2007.12.005
PMID:18242581
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2693035/
Abstract

Aspirin exerts its unique pharmacological effects by irreversibly acetylating a serine residue in the cyclooxygenase site of prostaglandin-H2-synthases (PGHSs). Despite the irreversibility of the inhibition, the potency of aspirin varies remarkably between cell types, suggesting that molecular determinants could contribute to cellular selectivity. Using purified enzymes, we found no evidence that aspirin is selective for either of the two PGHS isoforms, and we showed that hydroperoxide substrates of the PGHS peroxidase inhibited the rate of acetylation of PGHS-1 by 68%. Using PGHS-1 reconstituted with cobalt protoporphyrin, a heme devoid of peroxidase activity, we demonstrated that reversal by hydroperoxides of the aspirin-mediated acetylation depends upon the catalytic activity of the PGHS peroxidase. We demonstrated that inhibition of PGHS-2 by aspirin in cells in culture is reversed by 12-hydroperoxyeicosatetraenoic acid dose-dependently (ED50=0.58+/-0.15 microM) and that in cells with high levels of hydroperoxy-fatty acids (RAW264.7) the efficacy of aspirin is markedly decreased as compared to cells with low levels of hydroperoxides (A549; IC50s=256+/-22 microM and 11.0+/-0.9 microM, respectively). Together, these findings indicate that acetylation of the PGHSs by aspirin is regulated by the catalytic activity of the peroxidase, which yields a higher oxidative state of the enzyme.

摘要

阿司匹林通过不可逆地乙酰化前列腺素-H2-合酶(PGHSs)环氧化酶位点中的丝氨酸残基发挥其独特的药理作用。尽管这种抑制作用具有不可逆性,但阿司匹林在不同细胞类型中的效力差异显著,这表明分子决定因素可能导致细胞选择性。使用纯化的酶,我们没有发现证据表明阿司匹林对两种PGHS同工型中的任何一种具有选择性,并且我们表明PGHS过氧化物酶的氢过氧化物底物将PGHS-1的乙酰化速率抑制了68%。使用用原卟啉钴重组的PGHS-1(一种缺乏过氧化物酶活性的血红素),我们证明氢过氧化物对阿司匹林介导的乙酰化的逆转取决于PGHS过氧化物酶的催化活性。我们证明,在培养细胞中,12-氢过氧化二十碳四烯酸剂量依赖性地(ED50=0.58±0.15微摩尔)逆转了阿司匹林对PGHS-2的抑制作用,并且在氢过氧脂肪酸水平高的细胞(RAW264.7)中,与氢过氧化物水平低的细胞(A549;IC50分别为256±22微摩尔和11.0±0.9微摩尔)相比,阿司匹林的效力显著降低。总之,这些发现表明阿司匹林对PGHSs的乙酰化受过氧化酶催化活性的调节,该活性产生酶的更高氧化态。

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