A structural view of ligand-dependent activation in thermoTRP channels

Transient Receptor Potential (TRP) proteins are a large family of ion channels, grouped intoseven sub-families. Although great advances have been made regarding the activation andmodulation of TRP channel activity, detailed molecular mechanisms governing TRPchannel gating are still needed. Sensitive to electric, chemical, mechanical, and thermalcues, TRP channels are tightly associated with the detection and integration of sensoryinput, emerging as a model to study the polymodal activation of ion channel proteins.Among TRP channels, the temperature-activated kind constitute a subgroup by itself,formed by Vanilloid receptors 1-4, Melastatin receptors 2, 4, 5 and 8, TRPC5, and TRPA1.Some of the so-called “thermoTRP” channels participate in the detection of noxious stimulimaking them an interesting pharmacological target for the treatment of pain. However, thepoor specificity of the compounds available in the market represents an important obstacleto overcome. Understanding the molecular mechanics underlying ligand-dependentmodulation of TRP channels may help with the rational design of novel syntheticanalgesics. The present review focuses on the structural basis of ligand-dependentactivation of TRPV1 and TRPM8 channels. Special attention is drawn to the dissection ofligand-binding sites within TRPV1, PIP 2 -dependent modulation of TRP channels, and thestructure of natural and synthetic ligands.