Estrogen metabolism by primary cultures of rat ventral prostate epithelial and stromal cells.

Estrogen metabolism was examined in primary cultures of rat ventral prostate epithelial and stromal cells developed from young (approximately 3 weeks old) animals. Supraphysiologic concentrations (50 nM) of tritium-labelled estradiol (E2) and estrone (E1) were incubated separately with each cell type and the metabolites formed were measured at selected time points over a 24 h period. The metabolites were analyzed using high performance liquid chromatography. Epithelial cells exhibited an equal capability to interconvert E2 and E1 thus demonstrating the presence of similar oxidative and reductive activities for 17 beta-hydroxysteroid oxidoreductase (17 beta-HSOR) [0.45 and 0.40 pmol/3 h/microgram DNA respectively]. In contrast, stromal cells showed a 6-fold lower rate of oxidation of E2 to E1 (0.08 pmol/3 h/microgram DNA) but exhibited an approx 5-fold higher rate of reduction of E1 to E2 (1.81 pmol/3 h/microgram DNA). Estriol (E3) formation from either substrate was not detected in the two cell types. The results demonstrate that rat ventral prostate epithelial cells have similar capabilities to form or remove biologically active E2. In contrast, prostate stromal cells exhibited a preferential capability to form and possibly maintain high levels of biologically active E2. These findings are discussed with reference to the actions of estrogens on prostate epithelial-stromal cellular interactions.