Enantiospecific Allosteric Modulation of Cannabinoid 1 Receptor

The cannabinoid 1 receptor (CB1R) is one of the most widely expressed metabotropic G protein-coupled receptors in brain, and its participation in various (patho)physiological processes has made CB1R activation a viable therapeutic modality. Adverse psychotropic effects limit the clinical utility of...

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Veröffentlicht in:	ACS chemical neuroscience 2017-06, Vol.8 (6), p.1188-1203
Hauptverfasser:	Laprairie, Robert B, Kulkarni, Pushkar M, Deschamps, Jeffrey R, Kelly, Melanie E. M, Janero, David R, Cascio, Maria G, Stevenson, Lesley A, Pertwee, Roger G, Kenakin, Terrence P, Denovan-Wright, Eileen M, Thakur, Ganesh A
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Sprache:	eng
Schlagworte:	Allosteric Regulation - drug effects Allosteric Site - drug effects Animals Cannabinoid Receptor Agonists - chemical synthesis Cannabinoid Receptor Agonists - chemistry Cannabinoid Receptor Agonists - pharmacology HEK293 Cells Humans Isomerism Mice Receptor, Cannabinoid, CB1 - agonists Receptor, Cannabinoid, CB1 - drug effects
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creator	Laprairie, Robert B Kulkarni, Pushkar M Deschamps, Jeffrey R Kelly, Melanie E. M Janero, David R Cascio, Maria G Stevenson, Lesley A Pertwee, Roger G Kenakin, Terrence P Denovan-Wright, Eileen M Thakur, Ganesh A
description	The cannabinoid 1 receptor (CB1R) is one of the most widely expressed metabotropic G protein-coupled receptors in brain, and its participation in various (patho)physiological processes has made CB1R activation a viable therapeutic modality. Adverse psychotropic effects limit the clinical utility of CB1R orthosteric agonists and have promoted the search for CB1R positive allosteric modulators (PAMs) with the promise of improved drug-like pharmacology and enhanced safety over typical CB1R agonists. In this study, we describe the synthesis and in vitro and ex vivo pharmacology of the novel allosteric CB1R modulator GAT211 (racemic) and its resolved enantiomers, GAT228 (R) and GAT229 (S). GAT211 engages CB1R allosteric site(s), enhances the binding of the orthosteric full agonist [3H]CP55,490, and reduces the binding of the orthosteric antagonist/inverse agonist [3H]SR141716A. GAT211 displayed both PAM and agonist activity in HEK293A and Neuro2a cells expressing human recombinant CB1R (hCB1R) and in mouse-brain membranes rich in native CB1R. GAT211 also exhibited a strong PAM effect in isolated vas deferens endogenously expressing CB1R. Each resolved and crystallized GAT211 enantiomer showed a markedly distinctive pharmacology as a CB1R allosteric modulator. In all biological systems examined, GAT211’s allosteric agonist activity resided with the R-(+)-enantiomer (GAT228), whereas its PAM activity resided with the S-(−)-enantiomer (GAT229), which lacked intrinsic activity. These results constitute the first demonstration of enantiomer-selective CB1R positive allosteric modulation and set a precedent whereby enantiomeric resolution can decisively define the molecular pharmacology of a CB1R allosteric ligand.
doi_str_mv	10.1021/acschemneuro.6b00310
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In this study, we describe the synthesis and in vitro and ex vivo pharmacology of the novel allosteric CB1R modulator GAT211 (racemic) and its resolved enantiomers, GAT228 (R) and GAT229 (S). GAT211 engages CB1R allosteric site(s), enhances the binding of the orthosteric full agonist [3H]CP55,490, and reduces the binding of the orthosteric antagonist/inverse agonist [3H]SR141716A. GAT211 displayed both PAM and agonist activity in HEK293A and Neuro2a cells expressing human recombinant CB1R (hCB1R) and in mouse-brain membranes rich in native CB1R. GAT211 also exhibited a strong PAM effect in isolated vas deferens endogenously expressing CB1R. Each resolved and crystallized GAT211 enantiomer showed a markedly distinctive pharmacology as a CB1R allosteric modulator. In all biological systems examined, GAT211’s allosteric agonist activity resided with the R-(+)-enantiomer (GAT228), whereas its PAM activity resided with the S-(−)-enantiomer (GAT229), which lacked intrinsic activity. 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subjects	Allosteric Regulation - drug effects Allosteric Site - drug effects Animals Cannabinoid Receptor Agonists - chemical synthesis Cannabinoid Receptor Agonists - chemistry Cannabinoid Receptor Agonists - pharmacology HEK293 Cells Humans Isomerism Mice Receptor, Cannabinoid, CB1 - agonists Receptor, Cannabinoid, CB1 - drug effects
title	Enantiospecific Allosteric Modulation of Cannabinoid 1 Receptor
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