Ovarian steroids modulate endothelin-induced luteinizing hormone secretion from cultured rat pituitary cells.

It has been demonstrated that endothelins (ETs) induce LH secretory responses in cultured rat pituitary cells. Because estradiol and progesterone are known to be potent modulators of GnRH-induced gonadotropin secretion, we examined whether these steroids also influence the secretory responses of gonadotrophs to ETs. Cultured female rat pituitary cells were treated for 48 h with vehicle (0.2% ethanol), 1 nM estradiol alone, or a combination of 1 nM estradiol and 100 nM progesterone or for 48 h with 1 nM estradiol and a further 4 h with 100 nM progesterone and subsequently stimulated with 10 pM-100 nM ET-1 or ET-3. Forty-eight-hour estradiol treatment led to enhanced LH secretory responses to both ETs. This action was facilitated by short term progesterone treatment (3-fold vs. vehicle), while long term progesterone treatment was inhibitory. Perifusion experiments were performed to study the kinetics of individual and pulsatile LH secretory responses after steroid exposure of pituitary cells. ET-1 induced immediate biphasic LH responses that were augmented by long term estradiol treatment. Two-hour progesterone exposure led to marked increases in LH secretion, whereas 48-h progesterone treatment was inhibitory. Estradiol and progesterone were able to modulate both the initial spike and the secondary plateau phase of the secretory profile in response to ET-1, although these actions did not always reach statistical significance. The steroid treatment paradigms employed also induced inhibitory and stimulatory effects in cells that were stimulated with ET-3 in a pulsatile fashion. In these experiments it could be demonstrated that the facilitatory action of progesterone was present after 50 min of treatment and was maximum after 150 min (5-fold enhancement). The present data support the hypothesis that ETs are involved in the physiological regulation of gonadotropin secretion and demonstrate that ovarian steroids can act as potent modulators of ET-induced LH secretion.