Two mutations in extracellular loop 2 of the human GnRH receptor convert an antagonist to an agonist

Abstract

GnRH regulates the reproductive system through cognate G protein-coupled receptors in vertebrates. Certain GnRH analogs that are antagonists at mammalian receptors behave as agonists at Xenopus laevis and chicken receptors. This phenomenon provides the opportunity to elucidate interactions and the mechanism underlying receptor activation. A D-Lys(iPr) in position 6 of the mammalian GnRH receptor antagonist is required for this agonist activity (inositol phosphate production) in the chicken and X. laevis GnRH receptors. Chimeric receptors, in which extracellular loop domains of the human GnRH receptor were substituted with the equivalent domains of the X. laevis GnRH receptor, identified extracellular loop 2 as the determinant for agonist activity of one of the mammalian antagonists: antagonist 135-18. Site-directed mutagenesis of nine nonconserved residues in the C-terminal domain of extracellular loop 2 of the human GnRH receptor showed that a minimum of two mutations (Val5.24(197)Ala and Trp5.32(205)His) is needed in this region for agonist activity of antagonist 135-18. Agonist activity of antagonist 135-18 was markedly decreased by low pH (<7.0) compared with GnRH agonists. These findings indicate that D-Lys(iPr)6 forms a charge-supported hydrogen bond with His5.32(205) to stabilize the receptor in the active conformation. This discovery highlights the importance of EL-2 in ligand binding and receptor activation in G protein-coupled receptors.