PKCε phosphorylation of the sodium channel NaV1.8 increases channel function and produces mechanical hyperalgesia in mice
Dai-Fei Wu, Dave Chandra, Thomas McMahon, Dan Wang, Jahan Dadgar, Viktor N. Kharazia, Ying-Jian Liang, Stephen G. Waxman, Sulayman D. Dib-Hajj, Robert O. Messing
Dai-Fei Wu, Dave Chandra, Thomas McMahon, Dan Wang, Jahan Dadgar, Viktor N. Kharazia, Ying-Jian Liang, Stephen G. Waxman, Sulayman D. Dib-Hajj, Robert O. Messing
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Research Article Neuroscience

PKCε phosphorylation of the sodium channel NaV1.8 increases channel function and produces mechanical hyperalgesia in mice

Abstract

Mechanical hyperalgesia is a common and potentially disabling complication of many inflammatory and neuropathic conditions. Activation of the enzyme PKCε in primary afferent nociceptors is a major mechanism that underlies mechanical hyperalgesia, but the PKCε substrates involved downstream are not known. Here, we report that in a proteomic screen we identified the NaV1.8 sodium channel, which is selectively expressed in nociceptors, as a PKCε substrate. PKCε-mediated phosphorylation increased NaV1.8 currents, lowered the threshold voltage for activation, and produced a depolarizing shift in inactivation in wild-type — but not in PKCε-null — sensory neurons. PKCε phosphorylated NaV1.8 at S1452, and alanine substitution at this site blocked PKCε modulation of channel properties. Moreover, a specific PKCε activator peptide, ψεRACK, produced mechanical hyperalgesia in wild-type mice but not in Scn10a–/– mice, which lack NaV1.8 channels. These studies demonstrate that NaV1.8 is an important, direct substrate of PKCε that mediates PKCε-dependent mechanical hyperalgesia.

Authors

Dai-Fei Wu, Dave Chandra, Thomas McMahon, Dan Wang, Jahan Dadgar, Viktor N. Kharazia, Ying-Jian Liang, Stephen G. Waxman, Sulayman D. Dib-Hajj, Robert O. Messing

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