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Vol. 30, Issue 6, 709-715, June 2002
Department of Pharmacology, the University of Michigan (U.M.K.,
P.F.H.) and Lipid Research Laboratory, Rambam Medical Center, Haifa,
Israel (M.A., M.R.)
The potent antioxidants licorice root extract and glabridin, an
isoflavan purified from licorice root extract, were tested for their
ability to modulate the activities of several cytochrome P450
(P450) enzymes. P450 3A4, the major human drug metabolizing P450
enzyme, was inactivated by licorice root extract and by glabridin in a
time-and concentration-dependent manner. The inactivation was
NADPH-dependent and was not reversible by extensive dialysis. Further
analysis showed that the loss in enzymatic activity correlated with a
loss in the P450-reduced CO spectrum and with a loss of the intact heme
moiety. In contrast, incubations of P450 3A4 with similar
concentrations of 2,4-dimethylglabridin and NADPH did not lead to
inactivation of P450 3A4. P450 2B6 was also inactivated by glabridin in
a time- and concentration-dependent manner. The majority of the
glabridin-inactivated P450 2B6 was able to form a reduced CO spectrum
suggesting that the heme was not modified with this isoform.
High-performance liquid chromatography analysis of the P450 heme
confirmed that incubations with glabridin and NADPH did not result in
the destruction of the heme moiety. The activity of P450 2C9 was
competitively inhibited by glabridin, whereas P450 2D6 and P450 2E1
were virtually unaffected. The data show that glabridin can serve as a
substrate for at least three human P450 enzymes and that depending on
the isoform, metabolism of glabridin can lead to mechanism-based
inactivation or inhibition of the P450. Heme and reduced CO spectral
analysis also indicated that glabridin inactivated P450s 2B6 and 3A4 by
different mechanisms.
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