The complex regulation of Slo1 potassium channels from a structural perspective

Fast and regulated potassium efflux by Slo1 channels is crucial in many tissues in animals including neurons, the kidney and smooth muscle. During the last decade, structures have revealed many details about the gating mechanism and regulation of these large and complex molecular machines. This review summarizes these findings and the current knowledge about the intricate regulation of these important channels. Slo1 integrates sensing of the membrane potential via a voltage-sensor domain that undergoes subtle but significant structural rearrangements with a calcium-induced expansion of parts of the intracellular gating ring. Together, these two signals synergistically lead to changes in the conformation and chemical nature of the pore domain, allowing potassium ions to be translocated. In many native tissues, Slo1 channels are assembled with at least three classes of auxiliary subunits that change the gating kinetics or allow the channel to open also in absence of one of the two signals. Finally, Slo1 is inhibited, activated or deregulated by natural toxins and synthetic compounds, underlining the importance of the channel for the organism and as a potential target for drugs and other molecules.