2006
Axonal conduction and injury in multiple sclerosis: the role of sodium channels
Waxman SG. Axonal conduction and injury in multiple sclerosis: the role of sodium channels. Nature Reviews Neuroscience 2006, 7: 932-941. PMID: 17115075, DOI: 10.1038/nrn2023.Peer-Reviewed Original ResearchConceptsAxonal degenerationSodium channelsChannel isoformsDistinct pathophysiological rolesKey PointsMultiple sclerosisMultiple neurological deficitsRelapsing-remitting courseRestoration of conductionDegeneration of axonsCerebellar Purkinje neuronsVoltage-gated sodium channelsContext of demyelinationNeurological deficitsProgressive courseMultiple sclerosisAxonal conductionDisease progressionNav1.8 channelsConduction failurePathophysiological rolePurkinje neuronsCNS axonsFiring patternsLoss of coordinationAberrant expression
2002
Axotomy does not up-regulate expression of sodium channel Nav1.8 in Purkinje cells
Black J, Dusart I, Sotelo C, Waxman S. Axotomy does not up-regulate expression of sodium channel Nav1.8 in Purkinje cells. Brain Research 2002, 101: 126-131. PMID: 12007840, DOI: 10.1016/s0169-328x(02)00200-0.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAxonsAxotomyCerebellumDisease Models, AnimalFemaleGanglia, SpinalGene Expression RegulationImmunohistochemistryMultiple SclerosisNAV1.8 Voltage-Gated Sodium ChannelNeurons, AfferentNeuropeptidesPurkinje CellsRatsRats, WistarRNA, MessengerSodium ChannelsUp-RegulationZebrafish ProteinsConceptsMultiple sclerosisPurkinje cellsSensory neuron-specific sodium channelsDorsal root ganglion neuronsAberrant expressionSodium channelsHuman multiple sclerosisPrimary sensory neuronsSodium channel Nav1.8Specific sodium channelsCerebellar Purkinje cellsGanglion neuronsSensory neuronsAxotomySurgical modelSodium channel transcriptsExperimental modelCerebellar functionChannel transcriptsNeuronsSitu hybridizationCellsExpressionNav1.8Sclerosis