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鉴定负责依法韦仑及其三种羟基代谢物葡萄糖醛酸化的人尿苷二磷酸葡萄糖醛酸基转移酶(UGT)同工型。

Identification of human UGT isoforms responsible for glucuronidation of efavirenz and its three hydroxy metabolites.

作者信息

Bae S K, Jeong Y-J, Lee C, Liu K-H

机构信息

College of Pharmacy, The Catholic University of Korea, Bucheon, Gyeonggi-do, South Korea.

出版信息

Xenobiotica. 2011 Jun;41(6):437-44. doi: 10.3109/00498254.2011.551849. Epub 2011 Feb 14.

DOI:10.3109/00498254.2011.551849
PMID:21319958
Abstract

Uridine 5'-diphosphate-glucuronosyltransferases (UGTs) involved in the glucuronide formation of efavirenz (EFV) and its three hydroxy metabolites, 8-hydroxyefavirenz (8-OH EFV), 7-hydroxyefavirenz (7-OH EFV), and 8,14-dihydroxyefavirenz (8,14-diOH EFV), were assessed. Among 12 recombinant UGT isoforms tested, only UGT2B7 showed catalytic activity in the formation of EFV-N-glucuronide (EFV-G) as previously reported. On the other hand, almost all UGT isoforms were involved in the glucuronidation of the three hydroxy metabolites, although their relative contribution is unclear. The catalytic activities in the formation of EFV-G by 17 different human liver microsomes exhibit a more than 40-fold inter-individual variability, whereas those of glucuronidation of the three hydroxy metabolites showed almost identical activity. The formation of EFV-G showed a significant correlation (r = 0.920; p < 0.0001) with UGT2B7-catalysed azidothymidine glucuronidation in 17 different human liver microsomes. Furthermore, fluconazole, a known UGT2B7 inhibitor, potently inhibited the formation of EFV-G up to 80%. This suggests that EFV might be a specific UGT2B7 substrate in vitro. This is the first study identifying specific UGT isozymes that glucuronidate EFV and its three hydroxy metabolites. Continued identification and characterisation of these pathways may help reduce adverse effects such as CNS toxicity in EFV therapy.

摘要

对参与依法韦仑(EFV)及其三种羟基代谢物8 - 羟基依法韦仑(8 - OH EFV)、7 - 羟基依法韦仑(7 - OH EFV)和8,14 - 二羟基依法韦仑(8,14 - 二OH EFV)葡萄糖醛酸苷形成的尿苷5'-二磷酸葡萄糖醛酸基转移酶(UGTs)进行了评估。在所测试的12种重组UGT同工型中,只有UGT2B7如先前报道的那样在EFV - N - 葡萄糖醛酸苷(EFV - G)的形成中表现出催化活性。另一方面,几乎所有UGT同工型都参与了这三种羟基代谢物的葡萄糖醛酸化,尽管它们的相对贡献尚不清楚。17种不同人肝微粒体在EFV - G形成中的催化活性表现出超过40倍的个体间差异,而这三种羟基代谢物的葡萄糖醛酸化活性几乎相同。在17种不同人肝微粒体中,EFV - G的形成与UGT2B7催化的叠氮胸苷葡萄糖醛酸化呈显著相关性(r = 0.920;p < 0.0001)。此外,已知的UGT2B7抑制剂氟康唑可有效抑制EFV - G的形成达80%。这表明EFV在体外可能是一种特异性UGT2B7底物。这是第一项鉴定出使EFV及其三种羟基代谢物葡萄糖醛酸化的特异性UGT同工酶的研究。对这些途径的持续鉴定和表征可能有助于减少EFV治疗中的不良反应,如中枢神经系统毒性。

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