Synthesis and in Vitro Pharmacology of a Series of New Chiral Histamine H3-Receptor Ligands: 2-(RandS)-Amino-3-(1H-imidazol-4(5)-yl)propyl Ether Derivatives

Abstract

To investigate stereospecificity and the mechanism of activation of the histamine H₃-receptor, a series of 2-(R and S)-amino-3-(1H-imidazol-4(5)-yl)propyl ether derivatives were synthesized. In these compounds, the structures of the well-known antagonist iodoproxyfan and the full agonists R- or S-(α)-methylhistamine were combined in one molecule. The obtained “hybrid” molecules were tested for H₃-receptor affinity on rat cerebral cortex. Some selected compounds were further screened for H₃-receptor functional activity with GTPγ[³⁵S] autoradiography studies using rat brain tissue sections. The affinity of all the synthesized compounds (−log K_i = 5.9−7.9) was lower than that found for iodoproxyfan or two of its analogues; however, the compounds showed stereospecificity. The S-configuration of the series of 2-amino-3-(1H-imidazol-4(5)-yl)propyl ether derivatives, which resembles the stereochemistry of R-(α)-methylhistamine, was more favorable. Incorporation of an amino group in the propyl chain of iodoproxyfan and analogues did not alter the antagonistic behavior for compounds with an aromatic side chain. However, when also the aromatic moiety was replaced by a cyclohexyl group, the compounds behaved as agonists. This indicates that an interaction between the side chain amino group and the H₃-receptor protein is involved in H₃-receptor activation. The 2-(S)-amino-3-(1H-imidazol-4(5)-yl)propyl cyclohexylmethyl ether (23) has H₃-receptor agonistic properties with high affinity for the histamine H₃-receptor (−log K_i = 7.9 ± 0.2) and might serve as a useful tool for further studies concerning drug design and receptor−ligand interactions.