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Vol. 294, Issue 1, 387-395, July 2000
Imperial Cancer Research Fund, Molecular Pharmacology Unit, and
Biomedical Research Centre (D.Y., S.D., C.R.W., T.F.); and
Department of Cellular and Molecular Pathology (B.B.), Ninewells
Hospital and Medical School, Dundee, United Kingdom
Vinca alkaloids are important chemotherapeutic agents, and their
pharmacokinetic properties display significant interindividual variations, possibly due to CYP3A4-mediated metabolism. We have evaluated the relevance of this metabolism for the chemotherapeutic and
the toxicological properties of these drugs. Analysis was performed
using Chinese hamster ovary cell lines that expressed either CYP2D6 or
CYP3A4. The latter cells metabolized vinblastine with a turnover number
of 0.4 min
1, resulting in a decreased cytotoxicity of
this compound. Whereas vincristine and vinblastine at a concentration
of 100 nM killed more than 90% of the parental cells, more than 50 and
35%, respectively, of cells that coexpressed CYP3A4 and cytochrome
P450 (P450) reductase survived these treatments. No additional
increase in cytotoxicity was noted above 100 nM. Similarly,
preincubation of vinblastine with bacterial membranes that contained
recombinant CYP3A4 and P450 reductase decreased the cytotoxicity of
vinblastine for parental Chinese hamster ovary cells. We also
demonstrate that the presence of vinblastine in a coculture of cells
that expressed 
-galactosidase together with cells that expressed
CYP3A4 strongly selected for the latter cells, resulting in an
increased level of CYP3A4 in the surviving cell population. Similarly,
treatment of the human colon adenocarcinoma cell line LS174T with
vinblastine selected for a cell population with higher levels of
endogenous CYP3A4 as revealed by immunohistochemistry without
simultaneous increase of multidrug resistance protein 1 (MDR1).
This is the first evidence that tumor P450s have the potential to
contribute to the development of drug resistance during chemotherapy.
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