Agonist activity of mammalian gonadotropin-releasing antagonists in chicken gonadotropes reflects marked differences in vertebrate gonadotropin-releasing receptors

Abstract

The pharmacology of mammalian and avian gonadotropin-releasing (GnRH) receptors differs for agonist analogues. We have therefore compared the activities of mammalian-based GnRH antagonists in sheep and chicken gonadotropes to further elucidate the different structural requirements of the receptors. The antagonist activities of ten GnRH analogues were compared in cultured sheep and chicken pituitary cells by determining the dose required to cause a 50% inhibition of luteinizing hormone secretion (IC 50) induced by GnRH at its half-maximal concentration (EC 50). Nine analogues showed high antagonist activity in the sheep bioassay. Analogue IC 50s varied between half and twice ((1.22 – 6.06) × 10 −10 M) the GnRH EC 50 (3 × 10 −10 M). One of these peptides exhibited partial agonist activity. In contrast, eight of the analogues showed low antagonist activity in chicken pituitary cells, with IC 50s varying from 46 to 1490 times ((1.4–44.7) × 10 −7 M) the GnRH EC 50 (3 × 10 −9 M) and had a different order of potencies compared with that in the sheep. Furthermore, two analogues did not display antagonist activity at all in the chicken bioassay, but acted as pure agonists, stimulating LH secretion. These findings demonstrate marked differences in pharmacology between the avian and mammalian pituitary GnRH receptors and emphasize that GnRH antagonists, selected for their efficacy in mammals, cannot necessarily be used for physiological studies in non-mammalian vertebrates. The distinctly different pharmacology of the receptors and structural requirements of analogues for agonist/antagonist activity establish a basis for identifying receptor features involved in ligand-induced signal propagation using chimaeras of cloned sheep and chicken receptors.