A positive allosteric modulator of the β1AR with antagonist activity for catecholaminergic polymorphic ventricular tachycardia.

Orthosteric beta blockers represent the leading pharmacological intervention for managing heart diseases owing to their ability to competitively antagonize β-adrenergic receptors (βARs). However, their use is often limited by adverse effects such as fatigue, hypotension, and reduced exercise capacity, due in part to nonselective inhibition of multiple βAR subtypes. These challenges are particularly problematic in treating catecholaminergic polymorphic ventricular tachycardia (CPVT), a disease characterized by lethal tachyarrhythmias directly triggered by cardiac β1AR activation. To identify small-molecule allosteric modulators of the β1AR with enhanced subtype specificity and robust functional antagonism of β1AR-mediated signaling, we conducted a DNA-encoded small-molecule library screen and discovered Compound 11 (C11). C11 selectively potentiates the binding affinity of orthosteric agonists to the β1AR while potently inhibiting downstream signaling after β1AR activation. C11 prevents agonist-induced spontaneous contractile activity, Ca2+ release events, and exercise-induced ventricular tachycardia in the CSQ2-/- murine model of CPVT. Our studies demonstrate that C11 belongs to an emerging class of allosteric modulators termed positive allosteric modulator antagonists that positively modulate agonist binding but block downstream function. Its pharmacological properties and selective functional antagonism of β1AR-mediated signaling make C11 a promising therapeutic candidate for the treatment of CPVT and other forms of cardiac disease associated with excessive β1AR activation.

Duke Scholars

Author Seungkirl Ahn Medicine, Cardiology

Author Alem W Kahsai Medicine, Cardiology

Author Andrew Paul Landstrom Pediatrics, Cardiology

Author Howard Allan Rockman Medicine, Cardiology

Author Robert J. Lefkowitz Medicine, Cardiology