The Basal Thermal Sensitivity of the TRPV1 Ion Channel Is Determined by PKCβII

Lin Li; Raquibul Hasan; Xuming Zhang

doi:10.1523/JNEUROSCI.0278-14.2014

The Basal Thermal Sensitivity of the TRPV1 Ion Channel Is Determined by PKCβII

Lin Li, Raquibul Hasan, Xuming Zhang

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Abstract

Peripheral nociceptors are excited by the activation of membrane receptors and ion channels. The heat-sensitive TRPV1 ion channel responds to various noxious chemical and thermal stimuli, causing pain and itch. Here, we show that TRPV1 is coexpressed with PKCβII in a subset of mouse sensory neurons and that, in these neurons, TRPV1 binds directly to PKCβII, leading to the activation and translocation of PKCβII. Activated PKCβII, in turn, significantly increases the responsiveness of TRPV1 by phosphorylating Thr705. The heat sensitivity of TRPV1 is almost eliminated by either knocking down PKCβII or mutating Thr705; however, neither of these manipulations affects the potentiation of TRPV1 caused by the activation of PKCε. PKCβII thus acts as an auxiliary subunit of TRPV1 by forming a population-dependent TRPV1 ion channel complex controlling the sensitivity of TRPV1 and setting the threshold for pain and itch.

Original language	English
Pages (from-to)	8246-8258
Number of pages	13
Journal	Journal of Neuroscience
Volume	34
Issue number	24
DOIs	https://doi.org/10.1523/JNEUROSCI.0278-14.2014
Publication status	Published - 11 Jun 2014

Bibliographical note

Keywords

auxiliary subunit
pain
phosphorylation
PKC
TRP ion channels
TRPV1

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10.1523/JNEUROSCI.0278-14.2014

Li et al
Copyright © 2014 by the Society for Neuroscience.
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title = "The Basal Thermal Sensitivity of the TRPV1 Ion Channel Is Determined by PKCβII",

abstract = "Peripheral nociceptors are excited by the activation of membrane receptors and ion channels. The heat-sensitive TRPV1 ion channel responds to various noxious chemical and thermal stimuli, causing pain and itch. Here, we show that TRPV1 is coexpressed with PKCβII in a subset of mouse sensory neurons and that, in these neurons, TRPV1 binds directly to PKCβII, leading to the activation and translocation of PKCβII. Activated PKCβII, in turn, significantly increases the responsiveness of TRPV1 by phosphorylating Thr705. The heat sensitivity of TRPV1 is almost eliminated by either knocking down PKCβII or mutating Thr705; however, neither of these manipulations affects the potentiation of TRPV1 caused by the activation of PKCε. PKCβII thus acts as an auxiliary subunit of TRPV1 by forming a population-dependent TRPV1 ion channel complex controlling the sensitivity of TRPV1 and setting the threshold for pain and itch.",

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AU - Hasan, Raquibul

AU - Zhang, Xuming

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N2 - Peripheral nociceptors are excited by the activation of membrane receptors and ion channels. The heat-sensitive TRPV1 ion channel responds to various noxious chemical and thermal stimuli, causing pain and itch. Here, we show that TRPV1 is coexpressed with PKCβII in a subset of mouse sensory neurons and that, in these neurons, TRPV1 binds directly to PKCβII, leading to the activation and translocation of PKCβII. Activated PKCβII, in turn, significantly increases the responsiveness of TRPV1 by phosphorylating Thr705. The heat sensitivity of TRPV1 is almost eliminated by either knocking down PKCβII or mutating Thr705; however, neither of these manipulations affects the potentiation of TRPV1 caused by the activation of PKCε. PKCβII thus acts as an auxiliary subunit of TRPV1 by forming a population-dependent TRPV1 ion channel complex controlling the sensitivity of TRPV1 and setting the threshold for pain and itch.

AB - Peripheral nociceptors are excited by the activation of membrane receptors and ion channels. The heat-sensitive TRPV1 ion channel responds to various noxious chemical and thermal stimuli, causing pain and itch. Here, we show that TRPV1 is coexpressed with PKCβII in a subset of mouse sensory neurons and that, in these neurons, TRPV1 binds directly to PKCβII, leading to the activation and translocation of PKCβII. Activated PKCβII, in turn, significantly increases the responsiveness of TRPV1 by phosphorylating Thr705. The heat sensitivity of TRPV1 is almost eliminated by either knocking down PKCβII or mutating Thr705; however, neither of these manipulations affects the potentiation of TRPV1 caused by the activation of PKCε. PKCβII thus acts as an auxiliary subunit of TRPV1 by forming a population-dependent TRPV1 ion channel complex controlling the sensitivity of TRPV1 and setting the threshold for pain and itch.

KW - auxiliary subunit

KW - pain

KW - phosphorylation

KW - PKC

KW - TRP ion channels

KW - TRPV1

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DO - 10.1523/JNEUROSCI.0278-14.2014

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SP - 8246

EP - 8258

JO - Journal of Neuroscience

JF - Journal of Neuroscience

IS - 24

ER -

The Basal Thermal Sensitivity of the TRPV1 Ion Channel Is Determined by PKCβII

Abstract

Bibliographical note

Keywords

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