The TRPC3 protein plays a pivotal role in calcium signaling, influencing cell function. Aberrant TRPC3 expression is implicated in various pathologies, including cardiovascular diseases, tumors, and neurodegeneration. Despite its functional similarities with TRPC6 and TRPC7, TRPC3 exhibits distinct roles in disease contexts. Therefore, it is of paramount importance to develop a potent and selective TRPC3 antagonist with favorable drug-like properties. We employed extensive medicinal chemistry synthesis and structure–activity relationships (SARs) study. Thirty-one novel TRPC3 antagonists were designed and synthesized using the lead compound JW-65 as the scaffold. Compound 60a exhibits a 4-fold improvement in potency and displays exceptional selectivity. With favorable drug-like properties, this compound shows a heightened in vitro neuronal protective effect. Molecular modeling suggests possible modes of action between the TRPC3 protein and its antagonists. In summary, 60a holds significant promise for clinical development in conditions associated with TRPC3 dysregulation.
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