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Life Sci. 2007 Mar 20;80(15):1415-9. Epub 2007 Jan 17.

Cytochrome P450 enzymes involved in the metabolism of tetrahydrocannabinols and cannabinol by human hepatic microsomes.

Author information

1
Department of Hygienic Chemistry, Faculty of Pharmaceutical Sciences, Hokuriku University, Ho-3 Kanagawa-machi, Kanazawa 920-1181, Japan. k-watanabe@hokuriku-u.ac.jp

Abstract

In this study, tetrahydrocannabinols (THCs) were mainly oxidized at the 11-position and allylic sites at the 7alpha-position for Delta(8)-THC and the 8beta-position for Delta(9)-THC by human hepatic microsomes. Cannabinol (CBN) was also mainly metabolized to 11-hydroxy-CBN and 8-hydroxy-CBN by the microsomes. The 11-hydroxylation of three cannabinoids by the microsomes was markedly inhibited by sulfaphenazole, a selective inhibitor of CYP2C enzymes, while the hydroxylations at the 7alpha-(Delta(8)-THC), 8beta-(Delta(9)-THC) and 8-positions (CBN) of the corresponding cannabinoids were highly inhibited by ketoconazole, a selective inhibitor of CYP3A enzymes. Human CYP2C9-Arg expressed in the microsomes of human B lymphoblastoid cells efficiently catalyzed the 11-hydroxylation of Delta(8)-THC (7.60 nmol/min/nmol CYP), Delta(9)-THC (19.2 nmol/min/nmol CYP) and CBN (6.62 nmol/min/nmol CYP). Human CYP3A4 expressed in the cells catalyzed the 7alpha-(5.34 nmol/min/nmol CYP) and 7beta-hydroxylation (1.39 nmol/min/nmol CYP) of Delta(8)-THC, the 8beta-hydroxylation (6.10 nmol/min/nmol CYP) and 9alpha,10alpha-epoxidation (1.71 nmol/min/nmol CYP) of Delta(9)-THC, and the 8-hydroxylation of CBN (1.45 nmol/min/nmol CYP). These results indicate that CYP2C9 and CYP3A4 are major enzymes involved in the 11-hydroxylation and the 8-(or the 7-) hydroxylation, respectively, of the cannabinoids by human hepatic microsomes. In addition, CYP3A4 is a major enzyme responsible for the 7alpha- and 7beta-hydroxylation of Delta(8)-THC, and the 9alpha,10alpha-epoxidation of Delta(9)-THC.

PMID:
17303175
DOI:
10.1016/j.lfs.2006.12.032
[Indexed for MEDLINE]

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