Title: Molecular Pharmacology of Human Ca<sub>v</sub>3.2 T-Type Ca<sup>2+</sup> Channels: Block by Antihypertensives, Antiarrhythmics, and Their Analogs
Abstract: Antihypertensive drugs of the "calcium channel blocker" or "calcium antagonist" class have been used to establish the physiological role of L-type Ca<sup>2+</sup> channels in vascular smooth muscle. In contrast, there has been limited progress on the pharmacology T-type Ca<sup>2+</sup> channels. T-type channels play a role in cardiac pacemaking, aldosterone secretion, and renal hemodynamics, leading to the hypothesis that mixed T- and L-type blockers may have therapeutic advantages over selective L-type blockers. The goal of this study was to identify compounds that block the Ca<sub>v</sub>3.2 T-type channel with high affinity, focusing on two classes of compounds: phenylalkylamines (e.g., mibefradil) and dihydropyridines (e.g., efonidipine). Compounds were tested using a validated Ca<sup>2+</sup> influx assay into a cell line expressing recombinant Ca<sub>v</sub>3.2 channels. This study identified four clinically approved antihypertensive drugs (efonidipine, felodipine, isradipine, and nitrendipine) as potent T-channel blockers (IC<sub>50</sub> < 3 μM). In contrast, other widely prescribed dihydropyridines, such as amlodipine and nifedipine, were 10-fold less potent, making them a more appropriate choice in research studies on the role of L-type currents. In summary, the present results support the notion that many available antihypertensive drugs block a substantial fraction of T-current at therapeutically relevant concentrations, contributing to their mechanism of action.