Ih current stabilizes excitability in rodent DRG neurons and reverses hyperexcitability in a nociceptive neuron model of inherited neuropathic pain
Vasylyev D, Liu S, Waxman S. Ih current stabilizes excitability in rodent DRG neurons and reverses hyperexcitability in a nociceptive neuron model of inherited neuropathic pain. The Journal Of Physiology 2023, 601: 5341-5366. PMID: 37846879, PMCID: PMC10843455, DOI: 10.1113/jp284999.Peer-Reviewed Original ResearchConceptsFunction Nav1.7 mutationsDorsal root ganglion neuronsSmall DRG neuronsDRG neuronsNav1.7 mutationNeuropathic painGanglion neuronsHuman genetic modelsAction potentialsDRG neuron excitabilityDRG neuron hyperexcitabilityRodent DRG neuronsAP generationCardiac cellsPotential molecular targetsNeuron hyperexcitabilitySevere painPain therapeuticsCNS neuronsExcessive firingNeuron excitabilityCentral neuronsSubthreshold oscillationsHyperexcitabilityNeuronal firingConserved but not critical: Trafficking and function of NaV1.7 are independent of highly conserved polybasic motifs
Tyagi S, Sarveswaran N, Higerd-Rusli G, Liu S, Dib-Hajj F, Waxman S, Dib-Hajj S. Conserved but not critical: Trafficking and function of NaV1.7 are independent of highly conserved polybasic motifs. Frontiers In Molecular Neuroscience 2023, 16: 1161028. PMID: 37008789, PMCID: PMC10060856, DOI: 10.3389/fnmol.2023.1161028.Peer-Reviewed Original ResearchSensory axonsPeripheral voltage-gated sodium channelsMajor unmet clinical needFunction of Nav1.7Non-addictive treatmentsUnmet clinical needVoltage-clamp recordingsVoltage-gated sodium channelsPain therapyChronic painPrimary afferentsNoxious stimuliTherapeutic modalitiesAction potentialsAxonal transportClinical needVesicular packagingSodium channelsHuman painPainAxonal traffickingAxonal surfaceAxonal membraneAxonsAttractive target