Discovery of novel orexin receptor antagonists using a 1,3,5-trioxazatriquinans bearing multiple effective residues (TriMER) library

25 October 2021, Version 1

Abstract

Structurally diverse small compounds are utilized to obtain hit compounds that have suitable pharmacophores in appropriate three-dimensional conformations for the target drug receptors. We have focused on the 1,3,5-trioxazatriquinane skeleton, which has a high degree of three-dimensional properties, leading to a novel small-scale focused library based on 1,3,5- trioxazatriquinane. In the library screening for the orexin receptor, some of the compounds showed orexin receptor antagonistic activity with a high hit rate of 7%. By optimizing the hit compounds, we discovered a potent dual orexin receptor antagonist, 38b, and a selective orexin 1 receptor antagonist, 41b carrying the same plane structure. Both compounds showed reasonable brain permeability and beneficial effects when administered intraperitoneally to wild-type mice. Docking simulations of their eutomers, (–)-38b and (+)-41b, with orexin receptors suggested that the interaction between the 1,3,5-trioxazatriquinane core structure and the hydrophobic subpocket in orexin receptors enables a U-shape structure, which causes tight van der Waals interactions with the receptors similar to SB-334867, a selective orexin 1 receptor antagonist. These results indicate that the 1,3,5-trioxazatriquinanes bearing multiple effective residues (TriMERs) could serve as a privileged structure for G-protein coupled receptors (GPCRs) and the TriMER library approach might be useful for the hit discovery process targeting other GPCRs not only opioid and orexin receptors.

Keywords

drug discovery
orexin receptor
antagonist
trioxazatriquinane
focused library

Supplementary materials

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Title
Discovery of novel orexin receptor antagonists using a 1,3,5-trioxazatriquinans bearing multiple effective residues (TriMER) library
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