Endocrinology, Vol 136, 1589-1594, Copyright © 1995 by Endocrine Society

ARTICLES

Estrogen regulation of prodynorphin gene expression in the rat adenohypophysis: effect of the antiestrogen tamoxifen

S Spampinato, M Canossa, G Campana, L Carboni and T Bachetti
Department of Pharmacology, University of Bologna, Italy.

Prodynorphin (Prodyn)-derived peptides are synthesized in a subset of gonadotrope cells and released concomitantly with LH and FSH, and their levels in the rat adenohypophysis are influenced by the gonadal steroid environment. In several hormonal systems, factors that affect peptide levels may modulate the transcription of messenger RNA (mRNA) encoding for the target gene. Therefore, the present study was designed to investigate the effects of gonadal ablation and estrogen replacement on changes in steady state levels of anterior pituitary Prodyn mRNA and on the transcription rate in the adult female rat. The antiestrogen tamoxifen was employed for further exploring the relationships between estrogens and dynorphin (dyn)-related peptides. Adopting a solution hybridization-ribonuclease protection assay, steady state levels of Prodyn mRNA doubled in 2-week ovariectomized (OVX) rats, in parallel with a 3-fold increase in immunoreactive dyn-A-(1-17)-like material (irdyn-A). Estradiol (E2) replacement through sc SILASTIC implants for 1, 3, 7, and 14 days, which produces serum E2 levels between 25-35 pg/ml, restored in a time-dependent manner mRNA and peptide concentrations to values in sham-OVX rats. A significant decrease was observed after 3 days, and after 7 days, the effect was maximal. Tamoxifen (250 micrograms/kg.day, sc) administered simultaneously antagonized the action of E2 on Prodyn gene expression. Tamoxifen administered without E2 for 7 or 14 days significantly raised anterior pituitary levels of Prodyn mRNA and ir-dyn-A. To establish whether E2 and tamoxifen exert their effects on adenohypophyseal Prodyn mRNA by influencing the transcriptional activity of this gene, an in vitro transcriptional elongation assay was performed on nuclei from the anterior pituitary. The transcriptional rate of the Prodyn gene was significantly increased in 2-week OVX rats. Prodyn mRNA synthesis was suppressed in OVX rats exposed to E2, an effect antagonized by tamoxifen administered concomitantly. The antiestrogen administered alone for 14 days further elevated the transcriptional rate of Prodyn mRNA induced by gonadal ablation. In conclusion, E2 down-regulated the synthesis of Prodyn-derived peptides in adenohypophyseal cells. The antiestrogen tamoxifen antagonized the effect of E2 and, when chronically administered to OVX rats, further elevated the postcastrational rise in Prodyn gene expression.