The structural resemblance of the luteinizing hormone receptor (LHR) and follicle-stimulating hormone receptor (FSHR) impedes selective agonistic targeting of one of those by low molecular weight (LMW) ligands. In the present study, we describe a series of dimeric ligands consisting of a LMW agonist with dual activity on the FSHR and the LHR linked to a selective FSHR antagonist. Biological evaluation shows these compounds to be potent and selective LHR agonists, since no agonistic activity on the FSHR was observed. Equimolar mixing of the monomeric counterparts did not yield the pharmacological profile observed for the heterodimeric ligands, and FSHR agonism of the monomeric LHR agonist was still observed. The here-described results show that ligands with unique pharmacological profiles can be obtained by dimerizing monomeric molecules with distinct apposite properties.
Keywords: G-protein-coupled receptor; Luteinizing hormone receptor; bivalency; dimeric ligands; follicle-stimulating hormone receptor.