The Voltage-Dependent K+ Channel Family

Abstract

Voltage-dependent K+ (potassium; Kv) channels are ion channels that critically impact neuronal excitability and function. Four principal α subunits assemble to create a membrane-spanning pore that opens in a voltage-dependent manner to allow the selective passage of K+ ions across the cell membrane. Forty human genes encoding Kv channel α subunits have been identified, and most of them are expressed in the nervous system. The individual Kv subunits display unique cellular and subcellular expression patterns and co-assemble into distinct homo- and hetero-tetrameric channels that differ in their electrophysiological and pharmacological properties, and their sensitivity to dynamic modulation, by cellular signaling pathways. The resulting diversity allows Kv channels to impact all steps in electrical information processing, as well as numerous other aspects of neuronal functions, including those in which they appear to play a non-conducting role. This chapter reviews the current basic knowledge about this large and important family of ion channels.