Treatment of advanced colorectal cancer with doxorubicin combined with two potential multidrug-resistance-reversing agents: high-dose oral tamoxifen and dexverapamil

Abstract

On the basis of the overexpression of the MDR1 gene in human colorectal cancer, which may constitute a molecular basis for intrinsic drug resistance that can be reversed, and because of the limited therapeutic value of conventional cytotoxic treatment in this common disease, the present phase II study of P-glycoprotein-directed double modulation was initiated. Fifteen patients with measurable metastatic colorectal cancer, all of whom were refractory to first-line chemotherapy with 5-fluorouracil/leukovorin, were entered in this trial. Treatment consisted of 80 mg tamoxifen twice daily on days 1-9, oral dexverapamil every day on days 7-9, and 60 mg/m2 doxorubicin given by intravenous bolus injection on day 8. Courses were repeated every 4 weeks. After a median of three (between one and six) courses, none of the 14 evaluable patients had objective response, and 4 had stable disease. Adverse reactions consisted mainly of myelosuppression (WHO grade IV granulocytopenia was noted in 40%), and mild and reversible dexverapamil-related cardiovascular side-effects, specifically hypotension (47%). Our results suggest that, despite the histological demonstration of high levels of P-glycoprotein in colorectal cancer and administration of two potentially synergistic chemosensitizers, we were unsuccessful in circumventing its primary resistance to chemotherapy.