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Molecular mechanisms underlying menthol binding and activation of TRPM8 ion channel

Lizhen Xu, Yalan Han, Xiaoying Chen, Aerziguli Aierken, Han Wen, Wenjun Zheng, Hongkun Wang, Xiancui Lu, Zhenye Zhao, Cheng Ma, Ping Liang, Wei Yang, Shilong Yang, Fan Yang

2020Nature Communications113 citationsDOIOpen Access PDF

Abstract

Menthol in mints elicits coolness sensation by selectively activating TRPM8 channel. Although structures of TRPM8 were determined in the apo and liganded states, the menthol-bounded state is unresolved. To understand how menthol activates the channel, we docked menthol to the channel and systematically validated our menthol binding models with thermodynamic mutant cycle analysis. We observed that menthol uses its hydroxyl group as a hand to specifically grab with R842, and its isopropyl group as legs to stand on I846 and L843. By imaging with fluorescent unnatural amino acid, we found that menthol binding induces wide-spread conformational rearrangements within the transmembrane domains. By Φ analysis based on single-channel recordings, we observed a temporal sequence of conformational changes in the S6 bundle crossing and the selectivity filter leading to channel activation. Therefore, our study suggested a 'grab and stand' mechanism of menthol binding and how menthol activates TRPM8 at the atomic level.

Topics & Concepts

MentholTRPM8ChemistryTransient receptor potential channelIon channelBiophysicsStereochemistryBiochemistryBiologyReceptorOrganic chemistryTRPV1Ion Channels and ReceptorsEssential Oils and Antimicrobial ActivityPostharvest Quality and Shelf Life Management
Molecular mechanisms underlying menthol binding and activation of TRPM8 ion channel | Litcius