2018
Nonmuscle myosin II isoforms interact with sodium channel alpha subunits
Dash B, Han C, Waxman S, Dib-Hajj S. Nonmuscle myosin II isoforms interact with sodium channel alpha subunits. Molecular Pain 2018, 14: 1744806918788638. PMID: 29956586, PMCID: PMC6052497, DOI: 10.1177/1744806918788638.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAnimalsAnkyrinsBrainCell Line, TransformedElectric StimulationGanglia, SpinalGene Expression RegulationGreen Fluorescent ProteinsHumansImmunoprecipitationMiceMice, Inbred C57BLMice, TransgenicMolecular Motor ProteinsMyosin Heavy ChainsNAV1.6 Voltage-Gated Sodium ChannelNonmuscle Myosin Type IIBPatch-Clamp TechniquesRatsTransfectionConceptsSodium channel alpha subunitND7/23 cellsChannel alpha subunitDorsal root ganglion tissueAlpha subunitMyosin II motor proteinsNonmuscle myosin II isoformsRodent nervous tissueRodent brain tissueSteady-state fast inactivationVoltage-sensitive channelsFast inactivationVoltage-dependent activationSodium channel alphaGanglion tissueIsoform-dependent mannerMyosin II isoformsNervous tissueRecombinant myosinBrain tissueCommon structural motifRamp currentsMotor proteinsCellular excitabilitySodium channels
2010
Can robots patch‐clamp as well as humans? Characterization of a novel sodium channel mutation
Estacion M, Choi JS, Eastman EM, Lin Z, Li Y, Tyrrell L, Yang Y, Dib‐Hajj S, Waxman SG. Can robots patch‐clamp as well as humans? Characterization of a novel sodium channel mutation. The Journal Of Physiology 2010, 588: 1915-1927. PMID: 20123784, PMCID: PMC2901980, DOI: 10.1113/jphysiol.2009.186114.Peer-Reviewed Original Research
2009
A sodium channel gene SCN9A polymorphism that increases nociceptor excitability
Estacion M, Harty TP, Choi J, Tyrrell L, Dib‐Hajj S, Waxman SG. A sodium channel gene SCN9A polymorphism that increases nociceptor excitability. Annals Of Neurology 2009, 66: 862-866. PMID: 20033988, DOI: 10.1002/ana.21895.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsArginineBiophysical PhenomenaCell Line, TransformedElectric StimulationGanglia, SpinalGreen Fluorescent ProteinsHumansMembrane PotentialsMiceNAV1.7 Voltage-Gated Sodium ChannelNociceptorsPatch-Clamp TechniquesPolymorphism, Single NucleotideSensory Receptor CellsSensory ThresholdsSodium ChannelsTransfectionTryptophanConceptsNonsynonymous single nucleotide polymorphismsNociceptive primary sensory neuronsDorsal root ganglion neuronsPrimary sensory neuronsCurrent-clamp analysisSingle nucleotide polymorphismsSCN9A geneDRG neuronsNociceptor excitabilityGanglion neuronsUnaffected family membersControl chromosomesSensory neuronsSmall depolarizationSodium channelsMembrane potentialNeuronsAffected probandPolymorphismFamily membersDepolarizationChromosomesGenesErythromelalgiaPain
2007
A Nav1.7 channel mutation associated with hereditary erythromelalgia contributes to neuronal hyperexcitability and displays reduced lidocaine sensitivity
Sheets PL, Jackson JO, Waxman SG, Dib‐Hajj S, Cummins TR. A Nav1.7 channel mutation associated with hereditary erythromelalgia contributes to neuronal hyperexcitability and displays reduced lidocaine sensitivity. The Journal Of Physiology 2007, 581: 1019-1031. PMID: 17430993, PMCID: PMC2170829, DOI: 10.1113/jphysiol.2006.127027.Peer-Reviewed Original ResearchMeSH KeywordsAction PotentialsAnesthetics, LocalBinding SitesCell LineComputer SimulationDose-Response Relationship, DrugErythromelalgiaGanglia, SpinalHumansIon Channel GatingKineticsLidocaineModels, NeurologicalMutationNAV1.7 Voltage-Gated Sodium ChannelNerve Tissue ProteinsNeurons, AfferentSodium Channel BlockersSodium ChannelsTransfectionVoltage-Gated Sodium Channel beta-2 SubunitConceptsErythromelalgia mutationLidocaine inhibitionLocal anesthetic binding siteLocal anestheticsK mutationWild-type Nav1.7Use-dependent inhibitionSlow inactivationSteady-state slow inactivationAnesthetic binding sitesLidocaine sensitivityNeuronal hyperexcitabilityLidocaine treatmentSensory neuronsNaV1.7 currentsErythromelalgiaLidocaineNav1.7Electrophysiological differencesInhibitory effectChannel mutationsSodium channelsHyperexcitabilityK channelsAnesthetics
2006
Differential modulation of sodium channel Nav1.6 by two members of the fibroblast growth factor homologous factor 2 subfamily
Rush AM, Wittmack EK, Tyrrell L, Black JA, Dib‐Hajj S, Waxman SG. Differential modulation of sodium channel Nav1.6 by two members of the fibroblast growth factor homologous factor 2 subfamily. European Journal Of Neuroscience 2006, 23: 2551-2562. PMID: 16817858, DOI: 10.1111/j.1460-9568.2006.04789.x.Peer-Reviewed Original ResearchMeSH KeywordsCerebellumElectrophoresis, Polyacrylamide GelFibroblast Growth FactorsGanglia, SpinalHippocampusHumansImmunoblottingImmunohistochemistryImmunoprecipitationNAV1.6 Voltage-Gated Sodium ChannelNerve Tissue ProteinsNeuronsPatch-Clamp TechniquesProtein IsoformsRanvier's NodesSciatic NerveSodium ChannelsTransfectionConceptsFibroblast growth factor homologous factor 2Dorsal root ganglion neuronsSodium channelsDifferential modulationTrains of stimulationND7/23 cell lineRapid firing ratesFactor 2Slowing of recoveryNodes of RanvierDRG neuronsGanglion neuronsSciatic nerveSpecific neuronal compartmentsAdult rat tissuesMotor nodesElectrophysiological propertiesCerebellar neuronsDifferent functional effectsNeuronal compartmentsFiring rateInactivated channelsElectrophysiological methodsRat tissuesNeuronsSporadic onset of erythermalgia: A gain‐of‐function mutation in Nav1.7
Han C, Rush AM, Dib‐Hajj S, Li S, Xu Z, Wang Y, Tyrrell L, Wang X, Yang Y, Waxman SG. Sporadic onset of erythermalgia: A gain‐of‐function mutation in Nav1.7. Annals Of Neurology 2006, 59: 553-558. PMID: 16392115, DOI: 10.1002/ana.20776.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAmino Acid SequenceCell LineChinaDNA Mutational AnalysisDose-Response Relationship, RadiationElectric StimulationErythromelalgiaExonsFamily HealthHumansLeucineMaleMembrane PotentialsModels, MolecularMutationNAV1.7 Voltage-Gated Sodium ChannelPatch-Clamp TechniquesPhenylalanineSodium ChannelsTransfectionConceptsSporadic casesPeripheral sensory neuronsWhole-cell patch-clamp analysisAsymptomatic family membersPatch-clamp analysisAutosomal dominant disorderMild thermal stimuliSporadic onsetSensory neuronsErythermalgiaAsymptomatic fatherSmall depolarizationSodium channelsFounder mutationDominant disorderClamp analysisChannel activationThermal stimuliPatientsFunction mutationsFamily membersMultigeneration familySingle amino acid substitutionAmino acid substitutionsChinese family