2022
The fates of internalized NaV1.7 channels in sensory neurons: Retrograde cotransport with other ion channels, axon-specific recycling, and degradation
Higerd-Rusli G, Tyagi S, Liu S, Dib-Hajj F, Waxman S, Dib-Hajj S. The fates of internalized NaV1.7 channels in sensory neurons: Retrograde cotransport with other ion channels, axon-specific recycling, and degradation. Journal Of Biological Chemistry 2022, 299: 102816. PMID: 36539035, PMCID: PMC9843449, DOI: 10.1016/j.jbc.2022.102816.Peer-Reviewed Original ResearchConceptsMembrane proteinsIon channelsNeuronal functionDistinct neuronal compartmentsAxonal membrane proteinsRetrograde traffickingNeuronal polarityRecycling pathwayLate endosomesPlasma membraneSpecific proteinsAxonal traffickingNovel mechanismCell membraneSodium channel NaNeuronal compartmentsMultiple pathwaysLive neuronsVoltage-gated sodium channel NaProteinEndocytosisMembrane specializationsTraffickingMembraneChannel Na
1998
Slow Closed-State Inactivation: A Novel Mechanism Underlying Ramp Currents in Cells Expressing the hNE/PN1 Sodium Channel
Cummins T, Howe J, Waxman S. Slow Closed-State Inactivation: A Novel Mechanism Underlying Ramp Currents in Cells Expressing the hNE/PN1 Sodium Channel. Journal Of Neuroscience 1998, 18: 9607-9619. PMID: 9822722, PMCID: PMC6793269, DOI: 10.1523/jneurosci.18-23-09607.1998.Peer-Reviewed Original ResearchConceptsTTX-S currentsRamp currentsDRG neuronsClosed-state inactivationSensory neuronsChannel isoformsDistinct integrative propertiesSmall DRG neuronsSodium channelsTTX-sensitive currentsSlow ramp depolarizationSteady-state inactivationRamp depolarizationNeuronsSkeletal muscleState inactivationIntegrative propertiesInactivation propertiesOpen-state inactivationExcitable cellsNovel mechanismCellsDepolarizationInactivationPN1