Treatment with antiandrogens induces an androgen‐repressed gene in the rat ventral prostate

Abstract

We have recently described an androgen‐repressed gene in the rat ventral prostate, termed TRPM‐2, that appears to be involved in the processes of cell regression and programmed cell death. We have analyzed the effect of two antiandrogens currently used in the treatment of prostatic carcinoma on the induction of this gene. Cyproterone acetate (10 mg/day) and flutamide (15 mg/day), when administered to castrated rats receiving a maintenance dose of 5α‐dihydrotestosterone proprionate (250 μg/day), induce the expression of TRPM‐2. Northern hybridization and dot blot analysis demonstrate that TRPM‐2 steady‐state levels reach a maximum on day 4 of treatment with cyproterone acetate (520 ppm) and on day 6 of treatment with flutamide (190 ppm). During this time the steady‐state levels of the androgen‐dependent prostate steroid‐binding protein mRNA are reduced dramatically (from approximately 75,000 to 10,000 ppm), but are not eliminated even after extended treatment. Treatment with the two antiandrogens produces a substantial reduction in the organ weight/ body weight ratio and RNA content of the prostate when compared to rats receiving the maintenance dose alone. These results suggest that while neither cyproterone acetate nor flutamide fully repress the androgen‐dependent functions of the prostate, they do induce some of the androgen‐repressed sequences in the prostate that have been implicated in the process of cell death.