Abstract
While traditional β-blockers (i.e. competitive orthosteric antagonists of β-adrenergic receptors; βARs) are widely used as cardiovascular therapeutics, adverse effects such as fatigue and the nonselective inhibition of multiple receptor subtypes often limit maximal effectiveness. An emerging approach to enhance therapeutic targeting is to identify allosteric modulators that act cooperatively with orthosteric ligands. In contrast to orthosteric ligands which bind the endogenous ligand binding site, allosteric modulators bind to regions that are topographically distinct from the orthosteric pocket and can enhance (positive allosteric modulator; PAM) or reduce (negative allosteric modulator; NAM) the activities of orthosteric agonists/antagonists. Since allosteric regions exhibit greater sequence and structural diversity among receptor subtypes relative to the more highly conserved orthosteric pocket, allosteric modulators are more likely to be subtype specific and/or generate less adverse effects. We therefore embarked on a DNA-encoded small molecule library screen to identify novel allosteric modulators of the β 1 AR. Following multiple rounds of affinity selection using purified, functional, β 1 ARs reconstituted in lipid nanodiscs and HitGen’s OpenDEL® small molecule library containing more than 1 billion unique compounds, we identified Compound 11 (C11) as an allosteric modulator with unique pharmacological properties. Notably, C11 binds to the β 1 AR with micromolar affinity and enhances the binding affinity of orthosteric agonists and certain antagonists to the β 1 AR. In contrast to its positive cooperative effect on ligand binding, cell signaling assays showed C11 potently inhibits G protein and β-arrestin signaling downstream of the β 1 AR. Importantly, C11 showed high β 1 AR specificity with no effect on β 2 AR or AT 1 R signaling. These results suggest that C11 is a β 1 AR-specific PAM in terms of ligand binding but a NAM in terms of agonist efficacy, belonging to a largely under-characterized class of allosteric modulators termed PAM-antagonists. With an extremely unique pharmacological profile, C11 is a promising potential therapeutic and experiments evaluating its ability to modulate β 1 AR signaling in vivo are ongoing.
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