Identification of a New Class of Inhibitors of the Voltage-Gated Potassium Channel, Kv1.3, with Immunosuppressant Properties

Abstract

The voltage-gated potassium channel, K_v1.3, is a novel target for development of immunosuppressants. Using a functional ⁸⁶Rb⁺ efflux assay, a new class of high-affinity K_v1.3 inhibitors has been identified. The initial active in this series, 4-phenyl-4-[3-(2-methoxyphenyl)-3-oxo-2-azaprop-1-yl]cyclohexanone (PAC), which is representative of a disubstituted cyclohexyl (DSC) template, displays a K_i of ca. 300 nM and a Hill coefficient near 2 in the flux assay and in voltage clamp recordings of K_v1.3 channels in human T-lymphocytes. PAC displays excellent specificity as it only blocks members of the K_v1 family of potassium channels but does not affect many other types of ion channels, receptors, or enzyme systems. Block of K_v1.3 by DSC analogues occurs with a well-defined structure−activity relationship. Substitution at the C-1 ketone of PAC generates trans (down) and cis (up) isomer pairs. Whereas many DSC derivatives do not display selectivity in their interaction with different K_v1.x channels, trans DSC derivatives distinguish between K_v1.x channels based on their rates of C-type inactivation. DSC analogues reversibly inhibit the Ca²⁺-dependent pathway of T cell activation in in vitro assays. Together, these data suggest that DSC derivatives represent a new class of immunosuppressant agents and that specific interactions of trans DSC analogues with channel conformations related to C-type inactivation may permit development of selective K_v1.3 channel inhibitors useful for the safe treatment of autoimmune diseases.