Litcius/Paper detail

Cryo‐EM structure of the Slo1 potassium channel with the auxiliary γ1 subunit suggests a mechanism for depolarization‐independent activation

Milena Redhardt, Stefan Raunser, Tobias Raisch

2024FEBS Letters14 citationsDOIOpen Access PDF

Abstract

channels can stably associate with auxiliary γ subunits which fundamentally alter their behavior. By a so far unknown mechanism, the four γ subunits reduce the need for voltage-dependent activation and, thereby, allow Slo to open independently of an action potential. Here, using cryo-EM, we reveal how the transmembrane helix of γ1/LRRC26 binds and presumably stabilizes the activated voltage-sensor domain of Slo1. The activation is further enhanced by an intracellular polybasic stretch which locally changes the charge gradient across the membrane. Our data provide a possible explanation for Slo1 regulation by the four γ subunits and also their different activation efficiencies. This suggests a novel activation mechanism of voltage-gated ion channels by auxiliary subunits.

Topics & Concepts

BK channelDepolarizationBiophysicsPotassium channelProtein subunitChemistryMechanism (biology)PotassiumChannel (broadcasting)BiochemistryBiologyPhysicsComputer scienceComputer networkOrganic chemistryGeneQuantum mechanicsIon channel regulation and functionCardiac electrophysiology and arrhythmiasElectrochemical Analysis and Applications