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Cyclodextrins increase membrane tension and are universal activators of mechanosensitive channels

Charles D. Cox, Yixiao Zhang, Zijing Zhou, Thomas Walz, Boris Martinac

2021Proceedings of the National Academy of Sciences45 citationsDOIOpen Access PDF

Abstract

MscS, that MscS activation by CDs depends on CD-mediated lipid removal, and that the CD amount required to gate MscS scales with the channel's sensitivity to membrane tension. Importantly, cholesterol-loaded CDs do not activate MscS. CD-mediated lipid removal ultimately causes MscS desensitization, which we show is affected by the lipid environment. While many MS channels respond to membrane forces, generalized by the "force-from-lipids" principle, their different molecular architectures suggest that they use unique ways to convert mechanical forces into conformational changes. To test whether CDs can also be used to activate other MS channels, we chose to investigate the mechanosensitive channel of large conductance (MscL) and demonstrate that CDs can also activate this structurally unrelated channel. Since CDs can open the least tension-sensitive MS channel, MscL, they should be able to open any MS channel that responds to membrane tension. Thus, CDs emerge as a universal tool for the structural and functional characterization of unrelated MS channels.

Topics & Concepts

Mechanosensitive channelsBiophysicsChemistryMembraneGatingConductanceIon channelLipid bilayerTension (geology)BiochemistryMaterials scienceBiologyPhysicsUltimate tensile strengthMetallurgyCondensed matter physicsReceptorErythrocyte Function and PathophysiologyLipid Membrane Structure and BehaviorIon channel regulation and function
Cyclodextrins increase membrane tension and are universal activators of mechanosensitive channels | Litcius