Circumvention of multidrug resistance mediated by P-170 glycoprotein using calcium antagonists in primary human renal cell carcinoma.

In experimental cell lines and in some human tumors, calcium antagonists reversed multidrug resistance mediated by P-170 glycoprotein in vitro. So far, clinical trials have not been very rewarding as intrinsic cardiovascular activities of these compounds impeded sufficient dosage. Renal cell carcinomas are considered to be good models for the evaluation of this new therapeutic concept. In 35 primary human renal cell carcinomas, the potency of 7 different calcium antagonists in combination with vinblastine monotherapy was examined in a tetrazolium-based microculture assay (MTT test) in order to circumvent chemoresistance. Concomitantly, P-170 glycoprotein expression was traced immunohistochemically using moab C 219. Substances derived from piperazine (flunarizine) showed only minor effects in this respect. The calcium antagonists of the papaverine type such as verapamil etc. revealed the strongest reversal of chemoresistance. Derivatives of benzothiazepine (diltiazem) or of dihydropyridine (nifedipine etc.) acted similarly and reached about 70% of the verapamil activity. All calcium antagonists lead to a significant enhancement of vinblastine cytotoxicity. An obvious link of P-170 glycoprotein to vinblastine chemoresistance was demonstrated. This particular resistance characteristic was detected in 19 of 27 resistant cases, but in none of the tumors displaying a chemoresponse. In particular, the new stereoisomer R-verapamil, which showed strong reversal of chemoresistance but which exerts 10 times lower cardiovascular side effects than racemic verapamil, seems to be suitable for further evaluation with regard to the clinical application.