Growth Differentiation Factor 9 (GDF9) Suppresses Follistatin and Follistatin-Like 3 Production in Human Granulosa-Lutein Cells

We have demonstrated that growth differentiation factor 9 (GDF9) enhances activin A-induced inhibin β(B)-subunit mRNA levels in human granulosa-lutein (hGL) cells by regulating receptors and key intracellular components of the activin signaling pathway. However, we could not exclude its effects on follistatin (FST) and follistatin-like 3 (FSTL3), well recognized extracellular inhibitors of activin A.hGL cells from women undergoing in vitro fertilization (IVF) treatment were cultured with and without siRNA transfection of FST, FSTL3 or GDF9 and then treated with GDF9, activin A, FST, FSTL3 or combinations. FST, FSTL3 and inhibin β(B)-subunit mRNA, and FST, FSTL3 and inhibin B protein levels were assessed with real-time RT-PCR and ELISA, respectively. Data were log transformed before ANOVA followed by Tukey's test.GDF9 suppressed basal FST and FSTL3 mRNA and protein levels in a time- and dose-dependent manner and inhibited activin A-induced FST and FSTL3 mRNA and protein expression, effects attenuated by BMPR2 extracellular domain (BMPR2 ECD), a GDF9 antagonist. After GDF9 siRNA transfection, basal and activin A-induced FST and FSTL3 mRNA and protein levels increased, but changes were reversed by adding GDF9. Reduced endogenous FST or FSTL3 expression with corresponding siRNA transfection augmented activin A-induced inhibin β(B)-subunit mRNA levels as well as inhibin B levels (P values all <0.05). Furthermore, the enhancing effects of GDF9 in activin A-induced inhibin β(B)-subunit mRNA and inhibin B production were attenuated by adding FST.GDF9 decreases basal and activin A-induced FST and FSTL3 expression, and this explains, in part, its enhancing effects on activin A-induced inhibin β(B)-subunit mRNA expression and inhibin B production in hGL cells

Oxytocin is not important for the control of gonadotrophin secretion in the late follicular phase of the cycle

Objective To study the role of oxytocin in basal and GnRH-induced gonadotrophin secretion in normal women. Design Normal women were studied in three cycles. When the diameter of the leading follicle was 15-16 mm, the women were infused intravenously (i.v.) for 3 h with normal saline (cycle 1), atosiban (cycle 2) or oxytocin (cycle 3). Patients The study included 12 normally cycling women aged 23-38 years. Measurements After cessation of treatment, two injections of GnRH, 10 mu g each, were administered i.v. 2 h apart and blood samples were collected every 30 min for a total of 240 min. The 30-min pituitary response (sensitivity) to a single GnRH injection (10 mu g i.v.) was investigated thereafter every 12 h from the end of the 3-h infusion until the day of LH surge onset. Results No significant differences in LH and FSH response to GnRH (sensitivity and reserve) during the 240-min experiment were found between the three cycles. The time of LH surge onset from the initiation of the infusion was similar in the three cycles. Also similar in the three cycles were oestradiol (E2) and gonadotrophin levels as well as the 30-min response to GnRH for 48 h following the 3-h infusion. Conclusions The present study demonstrates that neither exogenous oxytocin administration nor blockage of endogenous oxytocin action influences pituitary sensitivity to GnRH in cycling women