Redox Partner Adrenodoxin Induces Substrate Binding to Steroidogenic Cytochrome P450 11B2 and 11A1 by Promoting A Conformational Change.

IF 4 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Biological Chemistry Pub Date : 2025-10-06 DOI:10.1016/j.jbc.2025.110792

Cara L Loomis,Michelle Redhair,Sang-Choul Im,Emily E Scott

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引用次数: 0

Abstract

In humans, cytochrome P450 (CYP) 11A1 and 11B2 play crucial roles in the steroidogenic pathway. CYP11A1 is involved in the first step in the steroidogenic pathway, converting cholesterol to pregnenolone, whereas CYP11B2 completes the final step in aldosterone synthesis. Each is a drug target for a distinct disease, and detailed information about enzyme kinetics and function could inform drug development. Both enzymes require the common redox partner adrenodoxin. Adrenodoxin allosterically modulates CYP11B2 function separate from its role in electron transfer. Herein, stopped-flow investigations establish that adrenodoxin is also an allosteric modulator of CYP11A1 substrate binding. For both enzymes, a kinetic modeling approach was used to elucidate the substrate binding mechanisms in the absence and presence of adrenodoxin. This analysis determined that substrate binding to both enzymes is best described by a complex, 4-state mechanism. Substrate 11-deoxycorticosterone binds CYP11B2 primarily through a branched induced fit mechanism, and the presence of adrenodoxin shifts the mechanism to a 4-state closed model containing both induced fit and conformational selection steps. CYP11A1 primarily binds its substrate 20R,22R-dihydroxycholesterol through a 4-state closed mechanism, while increasing adrenodoxin results in enhancement of the conformational selection step. Overall, this demonstrates the complexity of both P450 substrate binding and its fine-tuning by interactions with redox partners.

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氧化还原伴侣肾上腺素通过促进构象变化诱导底物与甾体源性细胞色素P450 11B2和11A1结合。

在人类中，细胞色素P450 (CYP) 11A1和11B2在类固醇生成途径中发挥重要作用。CYP11A1参与甾体生成途径的第一步，将胆固醇转化为孕烯醇酮，而CYP11B2完成醛固酮合成的最后一步。每一种酶都是针对不同疾病的药物靶点，有关酶动力学和功能的详细信息可以为药物开发提供信息。这两种酶都需要共同的氧化还原伙伴肾上腺素。肾上腺素还可以变结构调节CYP11B2的功能，而不是它在电子转移中的作用。本文中，停流研究证实，肾上腺素还可以作为CYP11A1底物结合的变构调节剂。对于这两种酶，采用动力学建模方法来阐明在肾上腺素还毒素缺失和存在的情况下底物结合机制。该分析确定底物与这两种酶的结合是由一个复杂的四态机制来描述的。底物11-脱氧皮质酮主要通过分支诱导配合机制结合CYP11B2，而肾上腺素的存在将该机制转变为包含诱导配合和构象选择步骤的四态封闭模型。CYP11A1主要通过四态封闭机制结合底物20R， 22r -二羟基胆固醇，而肾上腺素还氧素的增加导致构象选择步骤的增强。总的来说，这证明了P450底物结合及其通过与氧化还原伙伴相互作用进行微调的复杂性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Biological Chemistry Biochemistry, Genetics and Molecular Biology-Biochemistry

自引率

4.20%

发文量

1233

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