2023
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 firing
2021
KCNQ variants and pain modulation: a missense variant in Kv7.3 contributes to pain resilience
Yuan JH, Estacion M, Mis MA, Tanaka BS, Schulman BR, Chen L, Liu S, Dib-Hajj FB, Dib-Hajj SD, Waxman SG. KCNQ variants and pain modulation: a missense variant in Kv7.3 contributes to pain resilience. Brain Communications 2021, 3: fcab212-. PMID: 34557669, PMCID: PMC8454204, DOI: 10.1093/braincomms/fcab212.Peer-Reviewed Original ResearchPluripotent stem cell-derived sensory neuronsNav1.7 mutationSensory neuronsPain ProfilePain phenotypesPain resilienceDorsal root ganglion neuronsDaily pain diaryPeripheral sensory neuronsMissense variantsVoltage-clamp recordingsSodium channel Nav1.7Different pain experiencesPotential genetic factorsWhole-exome sequencingLarger M-currentsErythromelalgia patientsNeuropathic painPain episodesModerate painPain diaryPain modulationSevere painInter-individual variabilityGanglion neurons
2018
Atypical changes in DRG neuron excitability and complex pain phenotype associated with a Nav1.7 mutation that massively hyperpolarizes activation
Huang J, Mis MA, Tanaka B, Adi T, Estacion M, Liu S, Walker S, Dib-Hajj SD, Waxman SG. Atypical changes in DRG neuron excitability and complex pain phenotype associated with a Nav1.7 mutation that massively hyperpolarizes activation. Scientific Reports 2018, 8: 1811. PMID: 29379075, PMCID: PMC5788866, DOI: 10.1038/s41598-018-20221-7.Peer-Reviewed Original ResearchConceptsNav1.7 mutationClinical presentationDRG neuronsPain sensationDorsal root ganglion neuronsDRG neuron excitabilityFunction Nav1.7 mutationsLoss of excitabilityAbsence of painSodium channel Nav1.7Function mutationsComplex pain phenotypesEpisodic painSevere painCorneal anesthesiaGanglion neuronsNeuron excitabilityClinical lossPain phenotypesPainChannel Nav1.7Atypical changesNav1.7 channelsClinical levelNeurons
2015
Ca2+ toxicity due to reverse Na+/Ca2+ exchange contributes to degeneration of neurites of DRG neurons induced by a neuropathy-associated Nav1.7 mutation
Estacion M, Vohra BP, Liu S, Hoeijmakers J, Faber CG, Merkies IS, Lauria G, Black JA, Waxman SG. Ca2+ toxicity due to reverse Na+/Ca2+ exchange contributes to degeneration of neurites of DRG neurons induced by a neuropathy-associated Nav1.7 mutation. Journal Of Neurophysiology 2015, 114: 1554-1564. PMID: 26156380, PMCID: PMC4561630, DOI: 10.1152/jn.00195.2015.Peer-Reviewed Original ResearchConceptsSmall fiber neuropathyDRG neuronsNav1.7 mutationCell bodiesDorsal root ganglion neuronsDRG cell bodiesModes of NCXIntraepidermal nerve fibersVoltage-gated sodium channel Nav1.7Sodium/calcium exchangerDegeneration of neuritesSodium channel Nav1.7Levels of intracellularTreatment of WTAxonal degenerationGanglion neuronsFunction missense mutationsNerve fibersAxon degenerationChannel Nav1.7Reverse NCXCalcium exchangerNav1.7DegenerationNeurons