Second messengers and the control of progesterone production from first trimester trophoblast.

Abstract

Basal progesterone production from first trimester placental cells in culture was high during the first 24 h of culture and fell to less than 30% of the initial level after 96 h in vitro. 22(R)-Hydroxycholesterol had a similar effect on progesterone production at all incubation times, indicating that the decline in basal steroidogenesis was not due to a loss of mitochondrial or post-mitochondrial enzymes. Continuous stimulation with dibutyryl (db) cyclic AMP maintained progesterone synthesis at a relatively constant high level despite the fall in basal progesterone production, and the optimum concentration of db cyclic AMP was 1.0 mM. The calcium ionophore A23187 had no effect on progesterone incubation during short-term cultures (<4 h), and inhibited steroidogenesis after 24 h. Repeated addition of A23187 during 96 h of culture also inhibited progesterone production. These findings indicate that progesterone production in human trophoblast is supported by a local factor which maintains a high level of steroid production through a cyclic AMP-dependent mechanism. The inhibitory effects of calcium ionophore in trophoblast differ from the stimulatory effects of this compound in other steroidogenic cells, but the reasons for the difference are not known at present.