Carcinogenesis, Vol 18, 1775-1783, Copyright © 1997 by Oxford University Press
I Gardner, H Wakazono, P Bergin, I de Waziers, P Beaune, JG Kenna and J Caldwell
Cytochrome P450 mediated metabolism of methyleugenol to the proximate
carcinogen 1'-hydroxymethyleugenol has been investigated in vitro. Kinetic
studies undertaken in liver microsomes from control male Fischer 344 rats
revealed that this reaction is catalyzed by high affinity (Km of 74.9 +/-
9.0 microM, Vmax of 1.42 +/- 0.17 nmol/min/nmol P450) and low affinity
(apparent Km several mM) enzymic components. Studies undertaken at low
substrate concentration (20 microM) with microsomes from livers of rats
treated with the enzyme inducers phenobarbital, dexamethasone, isosafrole
and isoniazid indicated that a number of cytochrome P450 isozymes can
catalyze the high affinity component. In control rat liver microsomes, 1'-
hydroxylation of methyleugenol (assayed at 20 microM substrate) was
inhibited significantly (P < 0.05) by diallylsulfide (40%), p-
nitrophenol (55%), tolbutamide (30%) and alpha-naphthoflavone (25%) but not
by troleandomycin, furafylline, quinine or cimetidine. These results
suggested that the reaction is catalyzed by CYP 2E1 and by another as yet
unidentified isozyme(s) (most probably CYP 2C6), but not by CYP 3A, CYP
1A2, CYP 2D1 or CYP 2C11. Administration of methyleugenol (0-300 mg/kg/day
for 5 days) to rats in vivo caused dose- dependent auto-induction of
1'-hydroxylation of methyleugenol in vitro which could be attributed to
induction of various cytochrome P450 isozymes, including CYP 2B and CYP
1A2. Consequently, high dose rodent carcinogenicity studies are likely to
over-estimate the risk to human health posed by methyleugenol. The rate of
1'-hydroxylation of methyleugenol in vitro in 13 human liver samples varied
markedly (by 37- fold), with the highest activities being similar to the
activity evident in control rat liver microsomes. This suggests that the
risk posed by dietary ingestion of methyleugenol could vary markedly in the
human population.
ARTICLES
Cytochrome P450 mediated bioactivation of methyleugenol to 1'- hydroxymethyleugenol in Fischer 344 rat and human liver microsomes
Pharmacology and Toxicology, Imperial College School of Medicine at St. Mary's, Norfolk Place, London, UK.
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