2009
The ataxia3 Mutation in the N-Terminal Cytoplasmic Domain of Sodium Channel Nav1.6 Disrupts Intracellular Trafficking
Sharkey LM, Cheng X, Drews V, Buchner DA, Jones JM, Justice MJ, Waxman SG, Dib-Hajj SD, Meisler MH. The ataxia3 Mutation in the N-Terminal Cytoplasmic Domain of Sodium Channel Nav1.6 Disrupts Intracellular Trafficking. Journal Of Neuroscience 2009, 29: 2733-2741. PMID: 19261867, PMCID: PMC2679640, DOI: 10.1523/jneurosci.6026-08.2009.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBlotting, WesternCell LineChromosome MappingCytoplasmData Interpretation, StatisticalDNA, ComplementaryElectrophysiologyEthylnitrosoureaImmunohistochemistryMachado-Joseph DiseaseMiceMice, Inbred C57BLMutagensMutationMutation, MissenseNAV1.6 Voltage-Gated Sodium ChannelNerve Tissue ProteinsPatch-Clamp TechniquesSciatic NerveSodium ChannelsSubcellular FractionsTransfectionConceptsMutant channelsCytoplasmic N-terminal regionN-terminal cytoplasmic domainCytoplasmic N-terminal domainMouse chromosome 15N-terminal domainN-terminal regionAmino acid substitution p.Primary cerebellar granule cellsVoltage-dependent inward sodium currentMutant proteinsCytoplasmic domainJuvenile lethalityCis-GolgiTrafficking defectsPlasma membraneSodium channelsIntracellular traffickingProtein abundanceWild typeN-terminusGolgi complexMutant transcriptsChromosome 15Whole-cell patch-clamp studies
1999
Sodium channel expression in NGF‐overexpressing transgenic mice
Fjell J, Cummins T, Davis B, Albers K, Fried K, Waxman S, Black J. Sodium channel expression in NGF‐overexpressing transgenic mice. Journal Of Neuroscience Research 1999, 57: 39-47. PMID: 10397634, DOI: 10.1002/(sici)1097-4547(19990701)57:1<39::aid-jnr5>3.0.co;2-m.Peer-Reviewed Original ResearchConceptsNerve growth factorSodium channel expressionWild-type miceDRG neuronsTransgenic miceChannel expressionLevels of NGFDorsal root ganglion neuronsSNS/PN3Whole-cell patch-clamp studiesSmall DRG neuronsPeripheral nervous systemSodium channel mRNAFunctional sodium channelsPeak sodium current densityRegulation of expressionSodium current densityPatch-clamp studiesMechanical hyperalgesiaEmbryonic day 11Ganglion neuronsMouse DRGWild-type DRGsNervous systemLong-term overexpressionDifferential role of GDNF and NGF in the maintenance of two TTX-resistant sodium channels in adult DRG neurons
Fjell J, Cummins T, Dib-Hajj S, Fried K, Black J, Waxman S. Differential role of GDNF and NGF in the maintenance of two TTX-resistant sodium channels in adult DRG neurons. Brain Research 1999, 67: 267-282. PMID: 10216225, DOI: 10.1016/s0169-328x(99)00070-4.Peer-Reviewed Original ResearchMeSH KeywordsAge FactorsAnimalsAxotomyCell SizeCell SurvivalDown-RegulationDrug ResistanceFemaleGanglia, SpinalGene ExpressionGlial Cell Line-Derived Neurotrophic FactorLectinsMembrane PotentialsNAV1.8 Voltage-Gated Sodium ChannelNAV1.9 Voltage-Gated Sodium ChannelNerve Growth FactorsNerve Tissue ProteinsNeurons, AfferentNeuropeptidesPatch-Clamp TechniquesRatsRats, Sprague-DawleyRNA, MessengerSciatic NerveSodium ChannelsTetrodotoxinUp-RegulationConceptsTTX-R sodium currentsSNS/PN3Small DRG neuronsTTX-R currentsDRG neuronsIB4- neuronsSodium currentElectrophysiological propertiesSmall dorsal root ganglion neuronsDorsal root ganglion neuronsAxotomized DRG neuronsTTX-S currentsWhole-cell patch-clamp studiesTTX-resistant sodium channelsSciatic nerve transectionAdult DRG neuronsDifferent electrophysiological propertiesNear-normal levelsPatch-clamp studiesNerve transectionGDNF treatmentNeurotrophins NGFGanglion neuronsIsolectin IB4Exogenous NGF