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Vanilloid-dependent TRPV1 opening trajectory from cryoEM ensemble analysis

Do Hoon Kwon, Feng Zhang, Justin G. Fedor, Yang Suo, Seok‐Yong Lee

2022Nature Communications58 citationsDOIOpen Access PDF

Abstract

Single particle cryo-EM often yields multiple protein conformations within a single dataset, but experimentally deducing the temporal relationship of these conformers within a conformational trajectory is not trivial. Here, we use thermal titration methods and cryo-EM in an attempt to obtain temporal resolution of the conformational trajectory of the vanilloid receptor TRPV1 with resiniferatoxin (RTx) bound. Based on our cryo-EM ensemble analysis, RTx binding to TRPV1 appears to induce intracellular gate opening first, followed by selectivity filter dilation, then pore loop rearrangement to reach the final open state. This apparent conformational wave likely arises from the concerted, stepwise, additive structural changes of TRPV1 over many subdomains. Greater understanding of the RTx-mediated long-range allostery of TRPV1 could help further the therapeutic potential of RTx, which is a promising drug candidate for pain relief associated with advanced cancer or knee arthritis.

Topics & Concepts

ResiniferatoxinTRPV1Conformational isomerismBiophysicsChemistryAllosteric regulationTransient receptor potential channelTrajectoryPhysicsBiochemistryBiologyReceptorAstronomyMoleculeOrganic chemistryIon Channels and ReceptorsPlant Stress Responses and ToleranceIon channel regulation and function
Vanilloid-dependent TRPV1 opening trajectory from cryoEM ensemble analysis | Litcius