Cytochrome P4502D isozymes catalyze the 4-hydroxylation of methamphetamine enantiomers

L. Y. Lin; Y. Kumagai; A. Hiratsuka; S. Narimatsu; T. Suzuki; Y. Funae; E. W. Distefano; A. K. Cho

Cytochrome P4502D isozymes catalyze the 4-hydroxylation of methamphetamine enantiomers

L. Y. Lin, Y. Kumagai, A. Hiratsuka, S. Narimatsu, T. Suzuki, Y. Funae, E. W. Distefano, A. K. Cho

薬学部

研究成果 › 査読

9 被引用数 (Scopus)

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The 4-hydroxylation of S(+)- and R(-)-methamphetamine by rat liver microsomes was examined in Sprague-Dawley and Dark Agouti strains to determine the role of cytochrome P4502D (CYP2D) subfamily isozymes in catalyzing the reaction. In the study, anti-P450-BTL IgG, bufuralol, and quinine, a substrate and inhibitors of CYP2D isozymes, respectively, were found to block ~90% of the reaction as catalyzed by microsomes from Sprague- Dawley rats. Reconstituted systems of CYP2D isozymes purified from rat liver microsomes also mediated the reaction. These observations and the minimal activity found in microsomes from Dark Agouti rats support the notion that methamphetamine, like other phenylisopropylamine compounds, is oxidized on the 4-position of the aromatic ring by CYP2D isozymes.

本文言語	English
ページ（範囲）	610-614
ページ数	5
ジャーナル	Drug Metabolism and Disposition
巻	23
号	6
出版ステータス	Published - 1995

ASJC Scopus subject areas

薬理学
薬科学

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title = "Cytochrome P4502D isozymes catalyze the 4-hydroxylation of methamphetamine enantiomers",

abstract = "The 4-hydroxylation of S(+)- and R(-)-methamphetamine by rat liver microsomes was examined in Sprague-Dawley and Dark Agouti strains to determine the role of cytochrome P4502D (CYP2D) subfamily isozymes in catalyzing the reaction. In the study, anti-P450-BTL IgG, bufuralol, and quinine, a substrate and inhibitors of CYP2D isozymes, respectively, were found to block ~90% of the reaction as catalyzed by microsomes from Sprague- Dawley rats. Reconstituted systems of CYP2D isozymes purified from rat liver microsomes also mediated the reaction. These observations and the minimal activity found in microsomes from Dark Agouti rats support the notion that methamphetamine, like other phenylisopropylamine compounds, is oxidized on the 4-position of the aromatic ring by CYP2D isozymes.",

author = "Lin, {L. Y.} and Y. Kumagai and A. Hiratsuka and S. Narimatsu and T. Suzuki and Y. Funae and Distefano, {E. W.} and Cho, {A. K.}",

year = "1995",

language = "English",

volume = "23",

pages = "610--614",

journal = "Drug Metabolism and Disposition",

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TY - JOUR

T1 - Cytochrome P4502D isozymes catalyze the 4-hydroxylation of methamphetamine enantiomers

AU - Lin, L. Y.

AU - Kumagai, Y.

AU - Hiratsuka, A.

AU - Narimatsu, S.

AU - Suzuki, T.

AU - Funae, Y.

AU - Distefano, E. W.

AU - Cho, A. K.

PY - 1995

Y1 - 1995

N2 - The 4-hydroxylation of S(+)- and R(-)-methamphetamine by rat liver microsomes was examined in Sprague-Dawley and Dark Agouti strains to determine the role of cytochrome P4502D (CYP2D) subfamily isozymes in catalyzing the reaction. In the study, anti-P450-BTL IgG, bufuralol, and quinine, a substrate and inhibitors of CYP2D isozymes, respectively, were found to block ~90% of the reaction as catalyzed by microsomes from Sprague- Dawley rats. Reconstituted systems of CYP2D isozymes purified from rat liver microsomes also mediated the reaction. These observations and the minimal activity found in microsomes from Dark Agouti rats support the notion that methamphetamine, like other phenylisopropylamine compounds, is oxidized on the 4-position of the aromatic ring by CYP2D isozymes.

AB - The 4-hydroxylation of S(+)- and R(-)-methamphetamine by rat liver microsomes was examined in Sprague-Dawley and Dark Agouti strains to determine the role of cytochrome P4502D (CYP2D) subfamily isozymes in catalyzing the reaction. In the study, anti-P450-BTL IgG, bufuralol, and quinine, a substrate and inhibitors of CYP2D isozymes, respectively, were found to block ~90% of the reaction as catalyzed by microsomes from Sprague- Dawley rats. Reconstituted systems of CYP2D isozymes purified from rat liver microsomes also mediated the reaction. These observations and the minimal activity found in microsomes from Dark Agouti rats support the notion that methamphetamine, like other phenylisopropylamine compounds, is oxidized on the 4-position of the aromatic ring by CYP2D isozymes.

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M3 - Article

C2 - 7587941

AN - SCOPUS:0029017447

SN - 0090-9556

VL - 23

SP - 610

EP - 614

JO - Drug Metabolism and Disposition

JF - Drug Metabolism and Disposition

IS - 6

ER -

Cytochrome P4502D isozymes catalyze the 4-hydroxylation of methamphetamine enantiomers

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