Abstract
Transient receptor potential (TRP) channels are polymodal molecular sensors involved in numerous physiological processes and implicated in a variety of human diseases. Several structures of the founding member of the TRP channel family, TRPV1, are available, all of which were determined for the protein missing the N- and C-termini and the extracellular S5-P-loop. Here, we present structures of the full-length thirteen-lined ground squirrel TRPV1 solved by cryo-EM. Our structures resolve the extracellular cap domain formed by the S5-P-loops and the C-terminus that wraps around the three-stranded β-sheet connecting elements of the TRPV1 intracellular skirt. The cap domain forms a dome above the pore’s extracellular entrance, with four portals leading to the ion conductance pathway. Deletion of the cap increases the TRPV1 average conductance, reduces the open probability and affects ion selectivity. Our data show that both the termini and the cap domain are critical determinants of TRPV1 function.
Highlights
Transient receptor potential (TRP) channels are polymodal molecular sensors involved in numerous physiological processes and implicated in a variety of human diseases
In contrast to TRPV1 orthologues from rat and other mammals, ground squirrel TRPV1 fails to activate by heating in a physiologically relevant temperature range, even though the channel is sensitive to chemical agonists, such as acid and capsaicin[5]
We study the full-length squirrel TRPV1 (sqTRPV1) using cryoelectron microscopy combined with electrophysiology and mutagenesis to understand the general mechanisms of TRPV1 function
Summary
Transient receptor potential (TRP) channels are polymodal molecular sensors involved in numerous physiological processes and implicated in a variety of human diseases. Similar to sqTRPV1, the extended C-terminus that wraps around the three-stranded β-sheet has been observed in cryoEM structures of other temperature-sensitive TRPV channels TRPV2–3
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