Allosteric modulators restore orthosteric agonist binding to mutated CB1 receptors

Abstract

Abstract Objectives To determine if diminished orthosteric agonist binding due to mutations in extracellular loops 1 or 2 of the cannabinoid receptor 1 (CB1) can be overcome by an allosteric modulator and restore agonist binding. Methods Binding assays were performed using a range of concentrations of orthosteric compound, in the presence or absence of a set concentration of the allosteric modulator PSNCBAM-1 to determine the EC50 in its absence or presence. Key findings Single mutations in extracellular loop 1 or 2 of CB1 showed weak or no binding of agonist CP55940 to the receptor. Interestingly, upon addition of the allosteric modulator PSNCBAM-1, this binding was restored typically to wild-type CB1 levels. In a few cases, the allosteric modulator ORG27569 was compared with PSNCBAM-1 for CP55940 binding and it also restored binding. Further, wild-type levels of inverse agonist bound the CB1 mutants in the absence of modulator, suggesting the mutants were originally folded like the wild type. Conclusions Based on our findings, we provide evidence of a therapeutic application for allosteric modulators in situations where a mutation in the receptor may hinder its function. By utilizing allosteric modulators, restoration of orthosteric binding may be possible.