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Murine Cyp3a knockout chimeric mice with humanized liver: prediction of the metabolic profile of nefazodone in humans
Author(s) -
Nakada Naoyuki,
Kawamura Akio,
Kamimura Hidetaka,
Sato Koya,
Kazuki Yasuhiro,
Kakuni Masakazu,
Ohbuchi Masato,
Kato Kota,
Tateno Chise,
Oshimura Mitsuo,
Usui Takashi
Publication year - 2016
Publication title -
biopharmaceutics and drug disposition
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.419
H-Index - 58
eISSN - 1099-081X
pISSN - 0142-2782
DOI - 10.1002/bdd.1990
Subject(s) - cyp3a , pharmacokinetics , cytochrome p450 , biology , knockout mouse , metabolism , pharmacology , gene knockout , drug metabolism , metabolite , drug , gene , biochemistry
Chimeric mice with humanized livers (PXB mice) are used to investigate the metabolism and pharmacokinetics of drugs in humans. However, residual murine enzymatic activities derived from the liver and the presence of mouse small intestinal metabolism can hamper the prediction of human drug metabolism. Recently murine Cytochrome P450 3a gene knockout chimeric mice with humanized livers ( Cyp3a KO CM) were developed. To evaluate the prediction of drug metabolism, nefazodone (NEF) was administered orally at 10 mg/kg to the following mouse strains: Cyp3a KO CM, murine Cyp3a gene knockout ( Cyp 3a KO), PXB and severe combined immunodeficiency (SCID) mice. Liquid chromatography‐mass spectrometry was used for metabolic profiling of plasma, urine and bile. The prediction of human metabolite levels such as hydroxy nefazodone (OH‐NEF), triazoledione form (TD), m ‐chlorophenylpiperazine and dealkyl metabolites in Cyp3a KO CM was superior to that in Cyp3a KO, PXB or SCID mice. Further, clinical exposure levels of NEF, OH‐NEF and TD were reproduced in Cyp3a KO CM. In contrast, NEF was rapidly metabolized to TD in both PXB and SCID mice but not in Cyp3a KO mice, suggesting that murine CYP3A is involved in the elimination of NEF in these mice. These findings demonstrate that the metabolic profile of NEF in Cyp3a KO CM differs qualitatively and quantitatively from that in PXB mice due to the higher metabolic rate of NEF and its metabolites via murine CYP3A. Therefore Cyp3a KO CM might be useful in predicting the metabolic profiles of drug candidates in humans. Copyright © 2016 John Wiley & Sons, Ltd.

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