High affinity rigidified AT2 receptor ligands with indane scaffolds

Charlotta Wallinder; Christian Sköld; Sara Sundholm; Marie-Odile Guimond; Samir Yahiaoui; Gunnar Lindeberg; Nicole Gallo-Payet; Mathias Hallberg; Mathias Alterman

doi:10.1039/c9md00402e

High affinity rigidified AT₂ receptor ligands with indane scaffolds

Medchemcomm. 2019 Nov 18;10(12):2146-2160. doi: 10.1039/c9md00402e. eCollection 2019 Dec 1.

Authors

Charlotta Wallinder¹, Christian Sköld¹, Sara Sundholm¹, Marie-Odile Guimond², Samir Yahiaoui¹, Gunnar Lindeberg¹, Nicole Gallo-Payet², Mathias Hallberg³, Mathias Alterman¹

Affiliations

¹ Department of Medicinal Chemistry , BMC , Uppsala University , P.O. Box 574 , SE-751 23 Uppsala , Sweden.
² Service of Endocrinology , Faculty of Medicine and Health Sciences , University of Sherbrooke , Sherbrooke , J1H 5N4 Quebec , Canada.
³ The Beijer Laboratory , Department of Pharmaceutical Biosciences , Division of Biological Research on Drug Dependence , BMC , Uppsala University , P.O. Box 591 , SE-751 24 Uppsala , Sweden . Email: Mathias.Hallberg@farmbio.uu.se.

Abstract

Rigidification of the isobutyl side chain of drug-like AT₂ receptor agonists and antagonists that are structurally related to the first reported selective AT₂ receptor agonist 1 (C21) delivered bioactive indane derivatives. Four enantiomer pairs were synthesized and the enantiomers were isolated in an optical purity >99%. The enantiomers 7a, 7b, 8a, 8b, 9a, 9b, 10a and 10b bind to the AT₂ receptor with moderate (K _i = 54-223 nM) to high affinity (K _i = 2.2-7.0 nM). The enantiomer with positive optical rotation (+) exhibited the highest affinity at the receptor. The indane derivatives 7b and 10a are among the most potent AT₂ receptor antagonists reported so far. As illustrated by the enantiomer pairs 7a/b and 10a/b, an alteration at the stereogenic center has a pronounced impact on the activation process of the AT₂ receptor, and can convert agonists to antagonists and vice versa.