Literature DB >> 25787950

Human Na(v)1.8: enhanced persistent and ramp currents contribute to distinct firing properties of human DRG neurons.

Chongyang Han1, Mark Estacion1, Jianying Huang1, Dymtro Vasylyev1, Peng Zhao1, Sulayman D Dib-Hajj1, Stephen G Waxman2.   

Abstract

Although species-specific differences in ion channel properties are well-documented, little has been known about the properties of the human Nav1.8 channel, an important contributor to pain signaling. Here we show, using techniques that include voltage clamp, current clamp, and dynamic clamp in dorsal root ganglion (DRG) neurons, that human Na(v)1.8 channels display slower inactivation kinetics and produce larger persistent current and ramp current than previously reported in other species. DRG neurons expressing human Na(v)1.8 channels unexpectedly produce significantly longer-lasting action potentials, including action potentials with half-widths in some cells >10 ms, and increased firing frequency compared with the narrower and usually single action potentials generated by DRG neurons expressing rat Na(v)1.8 channels. We also show that native human DRG neurons recapitulate these properties of Na(v)1.8 current and the long-lasting action potentials. Together, our results demonstrate strikingly distinct properties of human Na(v)1.8, which contribute to the firing properties of human DRG neurons.

Entities:  

Keywords:  Nav1.8; dorsal root ganglion; persistent current; ramp current; sodium channel

Mesh:

Substances:

Year:  2015        PMID: 25787950      PMCID: PMC4432682          DOI: 10.1152/jn.00113.2015

Source DB:  PubMed          Journal:  J Neurophysiol        ISSN: 0022-3077            Impact factor:   2.714


  52 in total

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Authors:  Dmytro V Vasylyev; Chongyang Han; Peng Zhao; Sulayman Dib-Hajj; Stephen G Waxman
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8.  Dynamic clamp: computer-generated conductances in real neurons.

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10.  Dynamic clamp with StdpC software.

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  36 in total

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Review 6.  Modulation of sodium channels as pharmacological tool for pain therapy-highlights and gaps.

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Review 7.  The translatability of pain across species.

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Journal:  Neurology       Date:  2016-01-06       Impact factor: 9.910

10.  Sodium channel diversity in the vestibular ganglion: NaV1.5, NaV1.8, and tetrodotoxin-sensitive currents.

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