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Membrane phospholipids control gating of the mechanosensitive potassium leak channel TREK1

Philipp A. M. Schmidpeter, John T. Petroff, Leila Khajoueinejad, Aboubacar Wague, Cheryl Frankfater, Wayland W.L. Cheng, Crina M. Nimigean, Paul M. Riegelhaupt

2023Nature Communications64 citationsDOIOpen Access PDF

Abstract

Tandem pore domain (K2P) potassium channels modulate resting membrane potentials and shape cellular excitability. For the mechanosensitive subfamily of K2Ps, the composition of phospholipids within the bilayer strongly influences channel activity. To examine the molecular details of K2P lipid modulation, we solved cryo-EM structures of the TREK1 K2P channel bound to either the anionic lipid phosphatidic acid (PA) or the zwitterionic lipid phosphatidylethanolamine (PE). At the extracellular face of TREK1, a PA lipid inserts its hydrocarbon tail into a pocket behind the selectivity filter, causing a structural rearrangement that recapitulates mutations and pharmacology known to activate TREK1. At the cytoplasmic face, PA and PE lipids compete to modulate the conformation of the TREK1 TM4 gating helix. Our findings demonstrate two distinct pathways by which anionic lipids enhance TREK1 activity and provide a framework for a model that integrates lipid gating with the effects of other mechanosensitive K2P modulators.

Topics & Concepts

Mechanosensitive channelsGatingChemistryBiophysicsLipid bilayerPhosphatidic acidPotassium channelKcsA potassium channelPhosphatidylethanolamineBiochemistryIon channelMembranePhosphatidylcholinePhospholipidBiologyReceptorIon channel regulation and functionErythrocyte Function and PathophysiologyLipid Membrane Structure and Behavior
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