Increased vinblastine binding to membrane vesicles from multidrug-resistant KB cells.

Human KB carcinoma cells resistant to high levels of colchicine, vinblastine, vincristine, adriamycin, and actinomycin D exhibit reduced accumulation of these structurally unrelated chemotherapeutic agents (Akiyama, S.-I., Fojo, A., Hanover, J. A., Pastan, I., and Gottesman, M. M. (1985) Somatic Cell Mol. Genet. 11, 117-126; Fojo, A., Akiyama, S.-I., Gottesman, M. M., and Pastan, I. (1985) Cancer Res. 45, 3002-3007). To examine the mechanism of reduced drug accumulation in these cells, we measured 3Hvinblastine (3HVBL) binding to membrane vesicles made from drug-sensitive (KB-3-1), drug-resistant (KB-C4), and revertant (KB-R1) cells. Membrane vesicles from KB-C4 cells bound up to 8-fold more 3HVBL than vesicles from the parental KB-3-1 or revertant KB-R1 cell lines. No difference in binding of 3Hdexamethasone, to which the cells are equally sensitive, was observed. The difference in 3HVBL binding by vesicles from resistant and sensitive cells was eliminated by the addition of 10 micrograms/ml verapamil, which is known to reverse the multidrug-resistance phenotype. Drug binding by KB-C4 vesicles was osmotically insensitive, temperature-dependent, and trypsin-sensitive. Binding of 3HVBL by KB-C4 vesicles was inhibited by vinblastine, vincristine, and daunomycin (in decreasing order). Dexamethasone at 100 microM, colchicine at 100 microM, and actinomycin D at 100 microM did not significantly inhibit 3HVBL accumulation. No significant differences in tubulin content were detected among vesicles from sensitive and resistant cells. These data demonstrate that membrane vesicles from multiply drug-resistant cells bind increased amounts of vinblastine.