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细胞色素P450 2A6及其他人类P450酶在黄酮和黄烷酮氧化中的作用

Cytochrome P450 2A6 and other human P450 enzymes in the oxidation of flavone and flavanone.

作者信息

Kakimoto Kensaku, Murayama Norie, Takenaka Shigeo, Nagayoshi Haruna, Lim Young-Ran, Kim Vitchan, Kim Donghak, Yamazaki Hiroshi, Komori Masayuki, Guengerich F Peter, Shimada Tsutomu

机构信息

a Osaka Institute of Public Health , Higashinari-ku , Osaka , Japan.

b Laboratory of Drug Metabolism and Pharmacokinetics, Showa Pharmaceutical University , Machida , Tokyo , Japan.

出版信息

Xenobiotica. 2019 Feb;49(2):131-142. doi: 10.1080/00498254.2018.1426133. Epub 2018 Jan 29.

DOI:10.1080/00498254.2018.1426133
PMID:29310511
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6430112/
Abstract

1. We previously reported that flavone and flavanone interact spectrally with cytochrome P450 (P450 or CYP) 2A6 and 2A13 and other human P450s and inhibit catalytic activities of these P450 enzymes. In this study, we studied abilities of CYP1A1, 1A2, 1B1, 2A6, 2A13, 2C9 and 3A4 to oxidize flavone and flavanone. 2. Human P450s oxidized flavone to 6- and 5-hydroxylated flavones, seven uncharacterized mono-hydroxylated flavones, and five di-hydroxylated flavones. CYP2A6 was most active in forming 6-hydroxy- and 5-hydroxyflavones and several mono- and di-hydroxylated products. 3. CYP2A6 was also very active in catalyzing flavanone to form 2'- and 6-hydroxyflavanones, the major products, at turnover rates of 4.8 min and 1.3 min, respectively. Other flavanone metabolites were 4'-, 3'- and 7-hydroxyflavanone, three uncharacterized mono-hydroxylated flavanones and five mono-hydroxylated flavones, including 6-hydroxyflavone. CYP2A6 catalyzed flavanone to produce flavone at a turnover rate of 0.72 min that was ∼3-fold higher than that catalyzed by CYP2A13 (0.29 min). 4. These results indicate that CYP2A6 and other human P450s have important roles in metabolizing flavone and flavanone, two unsubstituted flavonoids, present in dietary foods. Chemical mechanisms of P450-catalyzed desaturation of flavanone to form flavone are discussed.

摘要
  1. 我们之前报道过,黄酮和黄烷酮可与细胞色素P450(P450或CYP)2A6和2A13以及其他人类P450发生光谱相互作用,并抑制这些P450酶的催化活性。在本研究中,我们研究了CYP1A1、1A2、1B1、2A6、2A13、2C9和3A4氧化黄酮和黄烷酮的能力。2. 人类P450将黄酮氧化为6-和5-羟基黄酮、七种未鉴定的单羟基黄酮以及五种二羟基黄酮。CYP2A6在形成6-羟基和5-羟基黄酮以及几种单羟基和二羟基产物方面活性最高。3. CYP2A6在催化黄烷酮形成主要产物2'-和6-羟基黄烷酮方面也非常活跃,其周转速率分别为4.8分钟和1.3分钟。其他黄烷酮代谢产物为4'-、3'-和7-羟基黄烷酮、三种未鉴定的单羟基黄烷酮以及五种单羟基黄酮,包括6-羟基黄酮。CYP2A6催化黄烷酮生成黄酮的周转速率为0.72分钟,比CYP2A13催化的速率(0.29分钟)高约3倍。4. 这些结果表明,CYP2A6和其他人类P450在代谢膳食食物中存在的两种未取代黄酮类化合物黄酮和黄烷酮方面具有重要作用。讨论了P450催化黄烷酮去饱和形成黄酮的化学机制。

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