Suppression of luteal estradiol receptors and progesterone synthesis by a gonadotropin-releasing hormone agonist (WY-40972) during midgestation.

Our recent studies demonstrated that the continuous administration of a gonadotropin-releasing hormone agonist (GnRH-Ag: WY-40972) in early pregnancy or midpregnancy induces abortion in rats by suppressing the plasma levels of progesterone (P) within 24 h. This fall in P levels is not accompanied by a fall in ovarian vein plasma testosterone (T) or estradiol (E). To determine whether the suppression of P by GnRH-Ag at midpregnancy is due to decreased E present in the corpora lutea (CL) and/or a decrease in luteal receptors of E, rats were treated continuously on Days 11-14 of pregnancy with 5 micrograms/day of GnRH-Ag delivered by an osmotic minipump. Ovarian blood samples were obtained on Day 12; at autopsy, CL were harvested and incubated with Medium 199 for 4 h at 37 degrees C under an atmosphere of 95% O2:5% CO2. Additional rats were killed on Day 12 or 14; CL were isolated from the ovary and pooled within the group for measurement of nuclear and cytosolic E receptors. While the net synthesis of P by CL in the GnRH-Ag-treated rats decreased to 40 +/- 14 from 138 +/- 54 ng/CL in controls, T and E levels were not different from their respective controls. Steroid levels in the ovarian vein plasma reflected a similar response. Nuclear E receptors levels were 211 and 198 in controls and 62 and 61 fmoles/mg DNA in the treated group on Days 12 and 14, respectively. These results suggest that GnRH-Ag has no effect on the ability of the luteal synthesis of T and E and that the anti-pregnancy effect of GnRH-Ag may be at the level of the CL due to the direct inhibitory effect of GnRH-Ag on the luteal synthesis of P which, in turn, results in a fall in E receptors in the CL. Alternatively, GnRH-Ag treatment could suppress luteal receptors for rat placental lactogen that, in turn, lower luteal E receptors, leading to a fall in luteal synthesis and release of P.