The Ankyrin Repeats of TRPV1 Bind Multiple Ligands and Modulate Channel Sensitivity

Overview

Journal Neuron

Publisher Cell Press

Specialty Neurology

Date 2007 Jun 22

PMID 17582331

Citations 208

Authors

Polina V Lishko

Erik Procko

Xiangshu Jin

Christopher B Phelps

Rachelle Gaudet

Affiliations

Soon will be listed here.

Abstract

TRPV1 plays a key role in nociception, as it is activated by heat, low pH, and ligands such as capsaicin, leading to a burning pain sensation. We describe the structure of the cytosolic ankyrin repeat domain (ARD) of TRPV1 and identify a multiligand-binding site important in regulating channel sensitivity within the TRPV1-ARD. The structure reveals a binding site that accommodates triphosphate nucleotides such as ATP, and biochemical studies demonstrate that calmodulin binds the same site. Electrophysiology experiments show that either ATP or PIP2 prevent desensitization to repeated applications of capsaicin, i.e., tachyphylaxis, while calmodulin plays an opposing role and is necessary for tachyphylaxis. Mutations in the TRPV1-ARD binding site eliminate tachyphylaxis. We present a model for the calcium-dependent regulation of TRPV1 via competitive interactions of ATP and calmodulin at the TRPV1-ARD-binding site and discuss its relationship to the C-terminal region previously implicated in interactions with PIP2 and calmodulin.

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