Cell proliferation in the prostate complex of the castrate mouse

SUMMARY Cell proliferation during 100 h of continuous androgen challenge was studied in the seminal vesicle and coagulating gland of Balb/c mice castrated 3 days or 14 days prior to the first daily injection of 250 μg testosterone propionate. Continuous labelling with [ 3 H] thymidine indicated that the seminal vesicle was almost totally responsive to androgen, as early as 3 days after castration, whereas the androgen sensitivity of the coagulating gland increased from 30% at 3 days after castration to 85% at 14 days after castration. In both tissues the magnitude of the proliferative reaction could be related to the extent of cell loss prior to stimulation. The duration of the pre‐replicative phase in the response of the seminal vesicle to androgen was 20–25 h both at 3 and 14 days after castration. In the coagulating gland the pre‐replicative phase was 40 h at 3 days after castration and 20 h at 14 days after castration. The maximum uptake of [7α‐ 3 H] testosterone administered to mice 3 days after castration was significantly greater ( P < 001) in the seminal vesicle compared to the coagulating gland. At 14 days the seminal vesicle and coagulating gland exhibited a similar capacity for uptake. The in vivo metabolism of [7α‐ 3 H] testosterone was studied by thin layer chromatography 30 min and 120 min after administration. A high proportion of the radioactivity extracted from all the tissues was associated with highly polar steroids. At 3 days after castration, the seminal vesicle, 2 h after administration of radioactive testosterone, retained a much higher proportion of radioactivity associated with dihydrotestosterone than did the coagulating gland. The localization of steroid in mice 3 days after castration was studied by drymount autoradiography at intervals up to 2 h after the injection of [1,2,6,7(n)‐ 3 H]‐testosterone. A heavier deposition of silver grains was observed over autoradiographs of the seminal vesicle. In the seminal vesicle the grains were primarily located over nuclear areas whereas in the coagulating gland the grains were diffusely distributed over both nuclear areas and over cytoplasmic areas.