The nonsteroidal mycoestrogen zearalenone and its five metabolites suppress LH secretion from the bovine anterior pituitary cells via the estradiol receptor GPR30 in vitro.

Picomolar concentrations of estradiol produce nongenomic suppression of GnRH-induced LH secretion from the anterior pituitary (AP) of cattle via G-protein-coupled receptor 30 (GPR30). Zearalenone (ZEN) is the nonsteroidal mycoestrogen produced by Fusarium fungi and has been detected in cereal grains, animal feed, and ruminant urine worldwide. Zearalenone has a prolonged blood half-life that results from enterohepatic cycling. There are five metabolites of ZEN: α-zearalanol (α-ZAL), ß-zearalanol (ß-ZAL), α-zearalenol (α-ZOL), ß-zearalenol (ß-ZOL), and zearalanone, which may persist for long periods in animals and humans after consumption of ZEN-contaminated feed. We recently reported that GPR30 bound with α-ZAL decreases cytoplasmic cAMP but not gene expression of LHα and LHß subunits, and GPR30 bound with α-ZAL suppresses GnRH-induced LH release in bovine AP cells in vitro. We tested the hypothesis that GPR30 bound with ZEN or one of the four previously untested metabolites suppresses GnRH-induced LH release from the bovine AP cells in vitro. Anterior pituitary cells were cultured for 3 days under steroid-free conditions and were then incubated with various concentrations (0.001-10 nM) of estradiol or one of the ZEN analogs for 5 minutes before GnRH stimulation. Gonadotropin-releasing hormone-stimulated LH secretion from AP cells was inhibited by all of the test concentrations of ZEN, 0.001 to 1 nM of α-ZAL, and 0.001 to 0.1 nM of the remaining four analogs. Pretreatment for 5 minutes with a GPR30-specific antagonist, G36, inhibited estradiol- and the ZEN analog-induced suppression of LH secretion from cultured AP cells. G36 alone had no significant effect on LH secretion. The estimated order of the nongenomic inhibiting effect was ZEN, α-ZAL, zearalanone, α-ZOL, ß-ZOL, and ß-ZAL, which is quite different from the reported order for their genomic effects. Therefore, ZEN and all of its metabolites suppress LH secretion from the bovine AP cells via GPR30 in vitro.

The non-steroidal mycoestrogen zeranol suppresses luteinizing hormone secretion from the anterior pituitary of cattle via the estradiol receptor GPR30 in a rapid, non-genomic manner.

Picomolar concentrations of estradiol produce rapid suppression of GnRH-induced luteinizing hormone (LH) secretion from the anterior pituitary (AP) of cattle via G-protein-coupled receptor 30 (GPR30). Zeranol is a strong estrogenic metabolite derived from zearalenone, a non-steroidal mycoestrogen produced by Fusarium that induces reproductive disorders in domestic animals. The hypothesis was tested that zeranol suppresses GnRH-induced LH release from the AP of cattle via GPR30 in a rapid, non-genomic manner. The AP cells (n=15) were cultured for 3 days in steroid-free conditions and then treated them with estradiol (0.001-10nM) or zeranol (0.001-100nM) for 5min before GnRH stimulation. Pre-treatment with 0.001-0.1nM estradiol suppressed GnRH-stimulated LH secretion. Pre-treatment with zeranol at concentrations of 0.001nM (P<0.01), 0.01nM (P<0.01), 0.1nM (P<0.05), and 1nM (P<0.05), but not at concentrations of 10 and 100nM, also inhibited GnRH-stimulated LH secretion from AP cells. Pre-treatment for 5min with a GPR30-specific antagonist, G36, inhibited estradiol or zeranol suppression of LH secretion from cultured AP cells. Cyclic AMP measurements and quantitative PCR analyses revealed that pre-treatment with small amounts of estradiol (P<0.05) or zeranol (P<0.01) decreased cAMP, but not gene expressions of the LHα, LHß, or FSHß subunits in the AP cells. Hence, zeranol may suppress luteinizing hormone secretion from the AP of cattle via GPR30 in a rapid, non-genomic manner.

Gonadotropin-releasing hormone (GnRH) receptors of cattle aggregate on the surface of gonadotrophs and are increased by elevated GnRH concentrations.

The presence of gonadotropin-releasing hormone (GnRH) receptors (GnRHRs) on gonadotrophs in the anterior pituitary (AP) is an important factor for reproduction control. However, little is known regarding GnRHR gene expression in gonadotrophs of cattle owing to the lack of an appropriate anti-GnRHR antibody. Therefore, an anti-GnRHR antibody for immunohistochemistry, flow cytometry, and immunocytochemistry assays was developed to characterize GnRHR gene expression in gonadotrophs. The anti-GnRHR antibody could suppress GnRH-induced LH secretion from cultured AP cells of cattle. The GnRHR, luteinizing hormone (LH), and follicle stimulating hormone (FSH) in the AP tissue was analyzed by fluorescence immunohistochemistry. The GnRHRs were aggregated on a limited area of the cell surface of gonadotrophs, possibly localized to lipid rafts. The LH secretion was stimulated with increasing amounts of GnRH; however, excessive concentrations (> 1 nM) resulted in a decrease in LH secretion. A novel method to purify gonadotrophs was developed using the anti-GnRHR antibody and fluorescence-activated cell sorting. Flow cytometric analysis using the anti-GnRHR antibody for cultured bovine AP cells, however, failed to support the hypothesis that GnRH induces GnRHR internalization and decreases GnRHR on the surface of GnRHR-positive AP cells. In contrast, immunocytochemistry using primary antibodies for cultured bovine AP cells showed that 10 nM (P < 0.05) and 100 nM (P < 0.01) GnRH, but not 0.01-1 nM GnRH, increased GnRHR in the cytoplasm of LH-positive cells. In conclusion, these data suggested that GnRHRs were aggregated on the surface of gonadotrophs and GnRHR inside gonadotrophs increased with elevated concentrations of GnRH.