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Sensory TRP Channels in Three Dimensions

Melinda M. Diver, John V. Lin King, David Julius, Yifan Cheng

2022Annual Review of Biochemistry78 citationsDOIOpen Access PDF

Abstract

Transient receptor potential (TRP) ion channels are sophisticated signaling machines that detect a wide variety of environmental and physiological signals. Every cell in the body expresses one or more members of the extended TRP channel family, which consists of over 30 subtypes, each likely possessing distinct pharmacological, biophysical, and/or structural attributes. While the function of some TRP subtypes remains enigmatic, those involved in sensory signaling are perhaps best characterized and have served as models for understanding how these excitatory ion channels serve as polymodal signal integrators. With the recent resolution revolution in cryo-electron microscopy, these and other TRP channel subtypes are now yielding their secrets to detailed atomic analysis, which is beginning to reveal structural underpinnings of stimulus detection and gating, ion permeation, and allosteric mechanisms governing signal integration. These insights are providing a framework for designing and evaluating modality-specific pharmacological agents for treating sensory and other TRP channel-associated disorders.

Topics & Concepts

Transient receptor potential channelIon channelAllosteric regulationNeuroscienceSensory systemGatingStimulus (psychology)Ligand-gated ion channelBiologyChemistryBiophysicsReceptorPsychologyBiochemistryPsychotherapistIon Channels and ReceptorsNeurobiology and Insect Physiology ResearchBiochemical Analysis and Sensing Techniques