Litcius/Paper detail

Dynamic molecular portraits of ion-conducting pores characterize functional states of TRPV channels

Yu. A. Trofimov, Nikolay A. Krylov, A. S. Minakov, Kirill D. Nadezhdin, Arthur Neuberger, Alexander I. Sobolevsky, Roman G. Efremov

2024Communications Chemistry15 citationsDOIOpen Access PDF

Abstract

Structural biology is solving an ever-increasing number of snapshots of ion channel conformational ensembles. Deciphering ion channel mechanisms, however, requires understanding the ensemble dynamics beyond the static structures. Here, we present a molecular modeling-based approach characterizing the ion channel structural intermediates, or their "dynamic molecular portraits", by assessing water and ion conductivity along with the detailed evaluation of pore hydrophobicity and residue packing. We illustrate the power of this approach by analyzing structures of few vanilloid-subfamily transient receptor potential (TRPV) channels. Based on the pore architecture, there are three major states that are common for TRPVs, which we call α-closed, π-closed, and π-open. We show that the pore hydrophobicity and residue packing for the open state is most favorable for the pore conductance. On the contrary, the α-closed state is the most hydrophobic and always non-conducting. Our approach can also be used for structural and functional classification of ion channels.

Topics & Concepts

TRPVIonIon channelChemistryNanotechnologyBiophysicsTransient receptor potential channelMaterials scienceChemical physicsTRPV1BiochemistryBiologyOrganic chemistryReceptorElectrochemical Analysis and ApplicationsAdvanced Chemical Sensor TechnologiesIon Channels and Receptors