Design of New Potent and Selective Thiophene-Based K V 1.3 Inhibitors and Their Potential for Anticancer Activity

The voltage-gated potassium channel K 1.3 has been recognized as a tumor marker and represents a promising new target for the discovery of new anticancer drugs. We designed a novel structural class of K 1.3 inhibitors through structural optimization of benzamide-based hit compounds and structure-activity relationship studies. The potency and selectivity of the new K 1.3 inhibitors were investigated using whole-cell patch- and voltage-clamp experiments. 2D and 3D cell models were used to determine antiproliferative activity. Structural optimization resulted in the most potent and selective K 1.3 inhibitor in the series with an IC value of 470 nM in oocytes and 950 nM in Ltk cells. K 1.3 inhibitor induced significant apoptosis in Colo-357 spheroids, while , , , and significantly inhibited Panc-1 proliferation.