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Temperature-Sensitive Gating of TRPV1 Channel as Probed by Atomistic Simulations

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Heat-activated transient receptor potential channel TRPV1 is one of the most studied eukaryotic proteins involved in temperature sensation. Upon heating, it exhibits rapid reversible pore gating, which depolarizes neurons and… Click to show full abstract

Heat-activated transient receptor potential channel TRPV1 is one of the most studied eukaryotic proteins involved in temperature sensation. Upon heating, it exhibits rapid reversible pore gating, which depolarizes neurons and generates action potentials. Underlying molecular details of such effects in the pore region of TRPV1 is of a crucial importance to control temperature responses of the organism. Despite the spatial structure of the channel in both open (O) and closed (C) states is known, microscopic nature of channel gating and mechanism of thermal sensitivity are still poorly understood. In this work, we used unrestrained atomistic molecular dynamics simulations of TRPV1 (without N- and C-terminal cytoplasmic domains) embedded into explicit lipid bilayer in its O- and C-states [1]. We found that the pore domain with its neighboring loops undergoes large temperature-dependent conformational transitions in an asymmetric way, when fragments only one monomer move with large amplitude, freeing the pore upon heating. Such an asymmetrical gating looks rather biologically relevant because it is faster and more reliable than traditionally proposed “iris-like” symmetric scheme of channel opening. Analysis of structural, dynamic, and hydrophobic organization of the pore domain revealed entropy growth upon TRPV1 gating, which is in line with current concepts of thermal sensitivity.Acknowledgements: Authors thank Russian Science Foundation (14-14-00871), Russian Foundation for Basic Research (16-04-00578), RAS MCB Program. Access to computational facilities of the Supercomputer Center “Polytechnical” at the St. Petersburg Polytecnic University is gratefully acknowledged.Reference:[1] A.O. Chugunov et al., Scientific Reports 6 (2016) 33112.

Keywords: sensitive gating; gating trpv1; trpv1; channel; temperature sensitive; trpv1 channel

Journal Title: Biophysical Journal
Year Published: 2017

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