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探讨导致细胞色素 P450 催化去饱和与羟化的因素。

Exploring the Factors which Result in Cytochrome P450 Catalyzed Desaturation Versus Hydroxylation.

机构信息

Department of Chemistry, University of Adelaide, Adelaide, SA, 5005, Australia.

College of Life Sciences and The State Key Laboratory of Medicinal Chemical Biology, Nankai University, Tianjin, 300071, P. R. China.

出版信息

Chem Asian J. 2022 Dec 14;17(24):e202200986. doi: 10.1002/asia.202200986. Epub 2022 Nov 11.

DOI:10.1002/asia.202200986
PMID:36268769
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10100021/
Abstract

The cytochrome P450 family of monooxygenase enzymes have essential biological roles involving the selective oxidation of carbon-hydrogen bonds. They can also catalyze other important metabolic reactions including desaturation to form alkenes. Currently the factors that control the partition between P450 hydroxylation and desaturation pathways are poorly defined. The CYP199A4 enzyme from the bacterium Rhodopseudomonas palustris HaA2 catalyzes the oxidation of 4-ethyl- and 4-isopropyl- benzoic acids with hydroxylation and desaturation occurring in significant quantities. Here we demonstrate that 4-cyclopropylbenzoic acid is regioselectively hydroxylated by CYP199A4 at the benzylic carbon. In contrast, the oxidation of 4-n-propylbenzoic acid by CYP199A4 results in three major metabolites: an alkene from desaturation and two hydroxylation products at the benzylic (Cα) and Cβ carbons in similar quantities. Extending the length of the alkyl substituent resulted in 4-n-butylbenzoic acid being oxidized at the benzylic position (45%) and desaturated (55%). In contrast, 4-isobutylbenzoic generated very little alkene (5%) but was hydroxylated at the benzylic position (54%) and at the tertiary Cβ position (41%). The oxidation of 4-n-propylbenzoic acid by the F298 V mutant of CYP199A4 occurred with no hydroxylation at Cβ and a significant increase in metabolites arising from desaturation (73%). The X-ray crystal structures of CYP199A4 with each substrate revealed that they bind in the active site with the alkyl substituent positioned over the heme. However, the longer alkylbenzoic acids were bound in a different conformation as was 4-n-propylbenzoic acid in the F298 V mutant. Overall, the changes in metabolite distribution could be ascribed to bond strength differences and the position of the alkyl group relative to the heme.

摘要

细胞色素 P450 单加氧酶家族在涉及碳-氢键选择性氧化的基本生物学作用中具有重要作用。它们还可以催化其他重要的代谢反应,包括去饱和形成烯烃。目前,控制 P450 羟化和去饱和途径之间分配的因素定义较差。来自沼泽红假单胞菌 HaA2 的 CYP199A4 酶催化 4-乙基-和 4-异丙基-苯甲酸的氧化,其中羟化和去饱和大量发生。在这里,我们证明 4-环丙基苯甲酸被 CYP199A4 在苄位碳原子上进行区域选择性羟化。相比之下,CYP199A4 氧化 4-正丙基苯甲酸导致三种主要代谢物:去饱和的烯烃和苄基(Cα)和 Cβ 碳上相似数量的两个羟化产物。延长烷基取代基的长度导致 4-正丁基苯甲酸在苄位(45%)和去饱和(55%)处被氧化。相比之下,4-异丁基苯甲酸生成的烯烃很少(5%),但在苄位(54%)和叔 Cβ 位(41%)被羟化。CYP199A4 的 F298V 突变体氧化 4-正丙基苯甲酸时,Cβ 位无羟化,去饱和产生的代谢物显著增加(73%)。CYP199A4 与每种底物的 X 射线晶体结构表明,它们在活性位点与烷基取代基位于卟啉上方结合。然而,较长的烷基苯甲酸以不同的构象结合,4-正丙基苯甲酸在 F298V 突变体中也是如此。总体而言,代谢物分布的变化可归因于键强度差异和烷基相对于卟啉的位置。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b3a7/10100021/24fc6ab34112/ASIA-17-0-g008.jpg
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