An Extracellular Ion Pathway Plays a Central Role in the Cooperative Gating of a K2P K+ Channel by Extracellular pH |
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| Authors: | Wendy González Leandro Zú?iga L. Pablo Cid Barbara Arévalo María Isabel Niemeyer Francisco V. Sepúlveda |
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| Affiliation: | From the §Centro de Estudios Científicos (CECs), 5110466 Valdivia and ;the ‡Centro de Bioinformática y Simulación Molecular, Universidad de Talca, 3465548 Talca, Chile |
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| Abstract: | Proton-gated TASK-3 K+ channel belongs to the K2P family of proteins that underlie the K+ leak setting the membrane potential in all cells. TASK-3 is under cooperative gating control by extracellular [H+]. Use of recently solved K2P structures allows us to explore the molecular mechanism of TASK-3 cooperative pH gating. Tunnel-like side portals define an extracellular ion pathway to the selectivity filter. We use a combination of molecular modeling and functional assays to show that pH-sensing histidine residues and K+ ions mutually interact electrostatically in the confines of the extracellular ion pathway. K+ ions modulate the pKa of sensing histidine side chains whose charge states in turn determine the open/closed transition of the channel pore. Cooperativity, and therefore steep dependence of TASK-3 K+ channel activity on extracellular pH, is dependent on an effect of the permeant ion on the channel pHo sensors. |
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| Keywords: | Electrophysiology Gating Membrane proteins Patch Clamp Potassium Channels H+ Gating K2P Channels Cooperativity Extracellular Ion Pathway |
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