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KMID : 1146920200500010071
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Journal of Pharmaceutical Investigation
2020 Volume.50 No. 1 p.71 ~ p.79
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Roles of CYP2C9 and its variants (CYP2C9*2 and CYP2C9*3) in the metabolism of 6-methoxy-2-napthylacetic acid, an active metabolite of the prodrug nabumetone
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Matsumoto Kaori
Hasegawa Tetsuya
Ohara Kosuke
Takei Chihiro
Akimoto Masayuki
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Abstract
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Nabumetone is a prodrug, used as an anti-inflammation agent and having the active metabolite 6-methoxy-2-naphthylacetic acid (6-MNA). The role of the polymorphic enzyme responsible for the 6-O-demethylation of 6-MNA to 6-hydroxy-2-naphtylacetic acid (6-HNA) was studied using recombinant cytochrome CYP2C9 microsomes (CYP2C9.1, CYP2C9.2 and CYP2C9.3) and human liver microsomes of known genotypes of CYP2C9. Utilizing recombinant CYP2C9.1, Vmax and Vmax/Km values of 6.3?¡¾?3.3 pmol/min/pmol P450 and 12.4?¡¾?4.7 nL/min/pmol P450, respectively, were obtained for the 6-MNA metabolism, and were almost similar to those in CYP2C9.2. In contrast, the Vmax/Km value in recombinant CYP2C9.3 was about one-third that of CYP2C9.1. In kinetic studies using liver microsomes of humans genotyped for the CYP2C9 genes, a sample genotyped as *3/*3 revealed about 4- to sixfold lower intrinsic clearance for 6-HNA formation than did samples genotyped as *1/*1. No appreciable differences were observed in kinetic parameters for 6-HNA formation in *1/*2 and *1/*3, while *2/*2 microsomes was comparable to wild type microsomes. In addition, S-warfarin 7-hydroxylation by recombinant CYP2C9.1 and CYP2C9.3 was inhibited by 6-MNA in a mixed manner. The apparent Ki value of 6-MNA on S-warfarin 7-hydroxylation by CYP2C9.3 was higher than that by CYP2C9.1. These results may provide valuable information for optimizing the anticoagulant activity of warfarin when nabumetone is co-administrated to patients.
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KEYWORD
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Nabumetone, 6-MNA, CYP2C9, Liver microsomes, Polymorphism, Warfarin
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