人胎盘芳香化酶将3-脱氧甾体转化为3-脱氧雌激素。

Conversion of a 3-desoxysteroid to 3-desoxyestrogen by human placental aromatase.

作者信息

Cole P A, Bean J M, Robinson C H

机构信息

Department of Pharmacology and Molecular Sciences, Johns Hopkins University School of Medicine, Baltimore, MD 21205.

出版信息

Proc Natl Acad Sci U S A. 1990 Apr;87(8):2999-3003. doi: 10.1073/pnas.87.8.2999.

DOI:10.1073/pnas.87.8.2999

PMID:2326261

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC53821/

Abstract

Human placental aromatase is a cytochrome P-450 enzyme system which converts androgens to estrogens by three successive oxidative reactions. The first two steps have been shown to be hydroxylations at the androgen 19-carbon, but the third step remains unknown. A leading theory for the third step involves ferric peroxide attack on the 19-oxo group to produce a 19,19-hydroxyferric peroxide intermediate and subsequent collapse to estrogen. We had previously developed a nonenzymatic peroxide model reaction which was based on the above-mentioned theory, and we demonstrated the importance of 3-ketone enolization in facilitating aromatization. This study discusses the synthesis and nonenzymatic and enzymatic study of a 3-desoxy-2,4-diene-19-oxo androgen analogue. This compound was found to be a potent nonenzymatic model substrate and competitive inhibitor of aromatase (Ki = 73 nM). Furthermore, in an unprecedented event, this compound served as a substrate for aromatase, with conversion to the corresponding 3-desoxyestrogen.

摘要

人胎盘芳香化酶是一种细胞色素P-450酶系统，它通过三步连续的氧化反应将雄激素转化为雌激素。前两步已被证明是雄激素19位碳原子的羟基化反应，但第三步仍不清楚。关于第三步的一个主要理论是，过氧化铁攻击19-氧代基团，生成19,19-羟基过氧化铁中间体，随后分解为雌激素。我们之前基于上述理论开发了一种非酶促过氧化物模型反应，并证明了3-酮烯醇化在促进芳香化反应中的重要性。本研究讨论了一种3-脱氧-2,4-二烯-19-氧代雄激素类似物的合成、非酶促和酶促研究。该化合物被发现是一种有效的非酶促模型底物和芳香化酶的竞争性抑制剂（Ki = 73 nM）。此外，在一个前所未有的事件中，该化合物作为芳香化酶的底物，转化为相应的3-脱氧雌激素。

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