Effects of bromocriptine on prolactin cellular hypertrophy, proliferation and secretory activity in diethylstilbestrol-induced pituitary tumors

Pituitary tumors induced by chronic diethylstilbestrol (DES) treatment in female F344 rats were treated subsequently with bromocriptine (BC). Effects of BC on separable subpopulations of lactotrophs were examined. Enzymatically dissociated cells from individual pituitaries were assessed regarding total number, relative lactotroph population, intracellular prolactin (PRL) content, PRL release in primary culture, and density alterations by separation in Ficoll-Hypaque or after sedimentation at unit gravity. In addition to the treatment and analysis of in situ tumors, the effects of BC treatment in vitro were assessed, using tumor cells which were first separated on Ficoll-Hypaque. Cell proliferation was assessed by cell cycle analysis, using DNA measurement by laser flow cytometry. BC treatment of tumors reversed the effects of DES on pituitary weight, PRL content and in vitro PRL release. Total cell recovery was not affected by BC, but cell separation showed that BC reduced the number of larger PRL-containing cells. Cell cycle analysis showed a decrease in numbers of cells in S and G 2 cycle phases after BC in only one of four experiments. BC had an effect on proliferation in only the upper gradient fractions, containing the smallest cells. Culture of Ficoll-separated tumor cells revealed greater PRL release among lighter/smaller cells. BC treatment inhibited PRL release from both light and dense cells. The results establish that PRL cell hypertrophy, as well as hyperplasia, results from DES treatment. Bromocriptine treatment reverses this hypertrophy concomitant with inhibiting PRL synthesis and release. Reversal of proliferation in tumor cells is not a major effect of bromocriptine treatment.