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How the TRPA1 receptor transmits painful stimuli: Inner workings revealed by electron cryomicroscopy.


ABSTRACT: A new high-resolution structure of a pain-sensing ion channel, TRPA1, provides a molecular scaffold to understand channel function. Unexpected structural features include a TRP-domain helix similar to TRPV1, a novel ligand-binding site, and an unusual C-terminal coiled coil stabilized by inositol hexakisphosphate (IP6). TRP-domain helices, which structurally act as a nexus for communication between the channel gates and its other domains, may thus be a feature conserved across the entire TRP family and, possibly, other allosterically-gated channels. Similarly, the TRPA1 antagonist-binding site could also represent a druggable location in other ion channels. Combined with known TRPA1 functional properties, the structural role for IP6 leads us to propose that polyphosphate unbinding could act as a molecular kill switch for TRPA1 inactivation. Finally, although packing of the TRPA1 membrane-proximal region hints at a mechanism for electrophile sensing, the details of how TRPA1 responds to noxious reactive electrophiles and temperature await future studies.

SUBMITTER: Brewster MS 

PROVIDER: S-EPMC4862669 | biostudies-literature | 2015 Nov

REPOSITORIES: biostudies-literature

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How the TRPA1 receptor transmits painful stimuli: Inner workings revealed by electron cryomicroscopy.

Brewster Monique S J MS   Gaudet Rachelle R  

BioEssays : news and reviews in molecular, cellular and developmental biology 20150921 11


A new high-resolution structure of a pain-sensing ion channel, TRPA1, provides a molecular scaffold to understand channel function. Unexpected structural features include a TRP-domain helix similar to TRPV1, a novel ligand-binding site, and an unusual C-terminal coiled coil stabilized by inositol hexakisphosphate (IP6). TRP-domain helices, which structurally act as a nexus for communication between the channel gates and its other domains, may thus be a feature conserved across the entire TRP fam  ...[more]

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