Abstract
SummaryTRAAK is a mechanosensitive two-pore domain K+ (K2P) channel localized to nodes of Ranvier in myelinated neurons. TRAAK deletion in mice results in mechanical and thermal allodynia and gain-of-function mutations cause the human neurodevelopmental disorder FHEIG. TRAAK displays basal and stimulus-gated activities typical of K2Ps, but the mechanistic and structural differences between these modes are unknown. Here, we demonstrate that basal and mechanically-gated openings are distinguished by their conductance, kinetics, and structure. Basal openings are low conductance, short duration, and occur through a channel with an interior cavity exposed to the surrounding membrane. Mechanically-gated openings are high conductance, long duration, and occur through a channel that is sealed to the surrounding membrane. Our results explain how dual modes of activity are produced by a single ion channel and provide a basis for the development of state-selective pharmacology with the potential to treat disease.
Publisher
Cold Spring Harbor Laboratory