Progesterone treatment in vitro enhances prostaglandin E and forskolin-promoted cyclic AMP production in human endometrial stromal cells

Abstract

Confluent human endometrial stromal cell cultures were exposed to steroids for up to 72 h and then stimulated with agonists of adenylate cyclase for 60 min. Neither steroid alone or in combination had a significant effect on cyclic AMP production. However, when stromal cell adenylate cyclase was stimulated with a receptor-dependent agonist (prostaglandin E), or with forskolin (which acts at a post-receptor site), progesterone in oestradiol-primed cells markedly enhanced (P<0.05) the effect of both agonists. The presence of phenol red, a weak oestrogenic compound, in the standard culture medium was sufficient to allow the progesterone effect to be manifest. Moreover, while oestradiol alone had no significant effect on prostaglandin E or forskolin-stimulated cyclic AMP production, the simultaneous exposure of cells to oestradiol and progesterone was the most effective treatment. Short-term incubation (up to 120 min) with progesterone had no effect on agonist-induced cyclic AMP accumulation, indicating that progesterone elicits its effect by the classic nuclear mechanism of action. It is suggested that the potentiation by progesterone of prostaglandin E-promoted production of cyclic AMP represents an important aspect of the functional role progesterone plays in the preparation of the endometrium for implantation.