Selective Partial Agonism of Vasopressin 1a Receptors In Vitro by OCE-205

Abstract

Objective To test the selectivity and degree of functional agonism of Ocelot Bio’s dual agonist/antagonist molecule, OCE-205, at the vasopressin 1a receptor (V1aR). Methods Cells expressing human (h) or rat V1a, V1b, V2, or oxytocin receptors (OTR) were incubated with varying concentrations of OCE-205 or with arginine vasopressin (AVP), and responses were measured with fluorescence or reporter gene assays. In addition, human resistance arteries were exposed to increasing concentrations of OCE-205, and the resulting contractility was measured. Results The mean efficacy of OCE-205 at hV1aR was 39% of the maximal possible effect (MPE), with a mean EC50 of 0.71 nM. Above 1 nM OCE-205, the percent maximal possible effect (%MPE) plateaued. The EC50 was much higher at hV1bR (134 nM), hV2R (420 nM), and OTR (6.9 nM), indicating selectivity for hV1aR. Results at rat receptors were similar. OCE-205 produced 40.0% of maximal depolarization-induced contraction, demonstrating functional partial agonism. Conclusion The dual agonist/antagonist structure of OCE-205 thus allows it to act as a highly selective partial agonist at vasopressin V1aR at therapeutically relevant concentrations.