Molecular Background of Leak K+ Currents: Two-Pore Domain Potassium Channels

P Enyedi, G Czirják - Physiological reviews, 2010 - journals.physiology.org
P Enyedi, G Czirják
Physiological reviews, 2010journals.physiology.org
Two-pore domain K+ (K2P) channels give rise to leak (also called background) K+ currents.
The well-known role of background K+ currents is to stabilize the negative resting
membrane potential and counterbalance depolarization. However, it has become apparent
in the past decade (during the detailed examination of the cloned and corresponding native
K2P channel types) that this primary hyperpolarizing action is not performed passively. The
K2P channels are regulated by a wide variety of voltage-independent factors. Basic …
Two-pore domain K+ (K2P) channels give rise to leak (also called background) K+ currents. The well-known role of background K+ currents is to stabilize the negative resting membrane potential and counterbalance depolarization. However, it has become apparent in the past decade (during the detailed examination of the cloned and corresponding native K2P channel types) that this primary hyperpolarizing action is not performed passively. The K2P channels are regulated by a wide variety of voltage-independent factors. Basic physicochemical parameters (e.g., pH, temperature, membrane stretch) and also several intracellular signaling pathways substantially and specifically modulate the different members of the six K2P channel subfamilies (TWIK, TREK, TASK, TALK, THIK, and TRESK). The deep implication in diverse physiological processes, the circumscribed expression pattern of the different channels, and the interesting pharmacological profile brought the K2P channel family into the spotlight. In this review, we focus on the physiological roles of K2P channels in the most extensively investigated cell types, with special emphasis on the molecular mechanisms of channel regulation.
American Physiological Society