2025
Enhanced trafficking of an inherited erythromelalgia NaV1.7 mutant channel at a physiological temperature
Mis M, Tyagi S, Akin E, Ghovanloo M, Zhao P, Dib-Hajj F, Randall A, Waxman S, Dib-Hajj S. Enhanced trafficking of an inherited erythromelalgia NaV1.7 mutant channel at a physiological temperature. Neurobiology Of Pain 2025, 18: 100188. DOI: 10.1016/j.ynpai.2025.100188.Peer-Reviewed Original ResearchMutant channelsIB4- neuronsInherited erythromelalgiaEnhanced traffickingActivity of Nav1.7Expressed sodium channelsHuman pain disordersCurrent-clamp recordingsDRG sensory neuronsVoltage-clamp recordingsAttacks of burning painGain-of-function mutationsIncreased membrane insertionHyperpolarizing shiftNeuronal hyperexcitabilityPain disordersCurrent-clampNav1.7 channelsWT channelsSensory neuronsSodium channelsIncreased firingTemporary reliefNeuronsSkin temperatureHigh-throughput multiplex voltage-clamp/current-clamp evaluation of acutely isolated neurons
Ghovanloo M, Tyagi S, Zhao P, Kiziltug E, Estacion M, Effraim P, Dib-Hajj S, Waxman S. High-throughput multiplex voltage-clamp/current-clamp evaluation of acutely isolated neurons. Nature Protocols 2025, 1-26. PMID: 40514421, DOI: 10.1038/s41596-025-01194-0.Peer-Reviewed Original ResearchPatch-clamp techniquePatch-clamp methodPatch-clamp approachPatch-clamp experimentsHeterologous cell linesIsolated neuronsInvestigated receptorsGraphical user interfaceIsolation of neuronsCell preparationsExcitable cellsOpen-source softwareCell linesNeuronsFiltration criteriaIndividual neuronsUser interfaceNative stateDrug screeningRobotic systemDrug developmentManual implementationBiophysical equationsComplex datasetsIntact tissueNav1.8, an analgesic target for nonpsychotomimetic phytocannabinoids
Ghovanloo M, Tyagi S, Zhao P, Waxman S. Nav1.8, an analgesic target for nonpsychotomimetic phytocannabinoids. Proceedings Of The National Academy Of Sciences Of The United States Of America 2025, 122: e2416886122. PMID: 39835903, PMCID: PMC11789019, DOI: 10.1073/pnas.2416886122.Peer-Reviewed Original ResearchConceptsExcitation of peripheral sensory neuronsTherapeutic potential of cannabinoidsPotential of cannabinoidsPeripheral sensory neuronsVoltage-gated sodiumSpectrum of adverse effectsNociceptor excitabilityPain signalsIn vivo studiesAnalgesic targetsPain treatmentAttenuate painRepetitive firingNav1.8Sensory neuronsTreatment optionsClinical studiesInhibit excitabilityAnalgesic compoundsPainTherapeutic potentialCannabigerolProof-of-principalAdverse effectsTreatment
2024
Functionally-selective inhibition of threshold sodium currents and excitability in dorsal root ganglion neurons by cannabinol
Ghovanloo M, Effraim P, Tyagi S, Zhao P, Dib-Hajj S, Waxman S. Functionally-selective inhibition of threshold sodium currents and excitability in dorsal root ganglion neurons by cannabinol. Communications Biology 2024, 7: 120. PMID: 38263462, PMCID: PMC10805714, DOI: 10.1038/s42003-024-05781-x.Peer-Reviewed Original ResearchConceptsDorsal root ganglionDorsal root ganglion neuronal excitabilityDorsal root ganglion neuronsNeuronal excitabilityCurrent-clamp analysisSteady-state inactivationVoltage-dependent sodiumSlow inactivated stateAutomated patch clamp platformMultielectrode array recordingsNav currentsNeuropathic painSodium currentRoot ganglionGanglion neuronsSlow inactivationInactivated stateCurrent inhibitorsIon channelsNeuronsInhibitory effectCannabinolArray recordingsEndocannabinoidCannabinoidCompartment-specific regulation of NaV1.7 in sensory neurons after acute exposure to TNF-α
Tyagi S, Higerd-Rusli G, Ghovanloo M, Dib-Hajj F, Zhao P, Liu S, Kim D, Shim J, Park K, Waxman S, Choi J, Dib-Hajj S. Compartment-specific regulation of NaV1.7 in sensory neurons after acute exposure to TNF-α. Cell Reports 2024, 43: 113685. PMID: 38261513, PMCID: PMC10947185, DOI: 10.1016/j.celrep.2024.113685.Peer-Reviewed Original ResearchTNF-aSensory neuronsEffect of TNF-aSensory neuron excitabilityTumor necrosis factor-aRegulation of NaV1.7Voltage-gated sodiumPro-inflammatory cytokinesCompartment-specific effectsNeuronal plasma membraneSensitize nociceptorsNeuronal excitabilitySomatic membraneChannel N terminusElectrophysiological recordingsP38 MAPKIon channelsFactor AAcute exposureMolecular determinantsNeuronsAxonal endingsPhospho-acceptor sitesPlasma membraneCompartment-specific regulation
2023
Sodium currents in naĂŻve mouse dorsal root ganglion neurons: No major differences between sexes
Ghovanloo M, Tyagi S, Zhao P, Effraim P, Dib-Hajj S, Waxman S. Sodium currents in naĂŻve mouse dorsal root ganglion neurons: No major differences between sexes. Channels 2023, 18: 2289256. PMID: 38055732, PMCID: PMC10761158, DOI: 10.1080/19336950.2023.2289256.Peer-Reviewed Original ResearchConceptsSexual dimorphismRodent dorsal root ganglion neuronsBiophysical propertiesDorsal root ganglion neuronsExpression patternsSex-dependent regulationVoltage-gated sodiumFunctional analysisGanglion neuronsRodent sensory neuronsMouse dorsal root ganglion neuronsNaĂŻve WT miceNumber of cellsMixed populationDimorphismUniform experimental conditionsSex-dependent differencesSensory neuronsNative DRG neuronsPain pathwaysDRG neuronsWT miceClinical studiesNav currentsAdult malesPaclitaxel effects on axonal localization and vesicular trafficking of NaV1.8
Baker C, Tyagi S, Higerd-Rusli G, Liu S, Zhao P, Dib-Hajj F, Waxman S, Dib-Hajj S. Paclitaxel effects on axonal localization and vesicular trafficking of NaV1.8. Frontiers In Molecular Neuroscience 2023, 16: 1130123. PMID: 36860665, PMCID: PMC9970094, DOI: 10.3389/fnmol.2023.1130123.Peer-Reviewed Original ResearchChemotherapy-induced peripheral neuropathyDorsal root gangliaPTX treatmentDRG axonsEffect of paclitaxelVoltage-gated sodium channel NaPain syndromePeripheral neuropathyDRG neuronsSodium channel NaRoot gangliaCell cycle arrestNeuronal somataSensory neuronsSide effectsTherapeutic targetingTumor growthPaclitaxel effectAntineoplastic agentsAxonal localizationPaclitaxelNumber of NaAxonal compartmentAxonsChannel NaA novel high throughput combined voltage-clamp/current-clamp analysis of single primary neurons
Ghovanloo M, Tyagi S, Zhao P, Kiziltug E, Estacion M, Dib-Hajj S, Waxman S. A novel high throughput combined voltage-clamp/current-clamp analysis of single primary neurons. Biophysical Journal 2023, 122: 101a. DOI: 10.1016/j.bpj.2022.11.734.Peer-Reviewed Original ResearchHigh-throughput combined voltage-clamp/current-clamp analysis of freshly isolated neurons
Ghovanloo M, Tyagi S, Zhao P, Kiziltug E, Estacion M, Dib-Hajj S, Waxman S. High-throughput combined voltage-clamp/current-clamp analysis of freshly isolated neurons. Cell Reports Methods 2023, 3: 100385. PMID: 36814833, PMCID: PMC9939380, DOI: 10.1016/j.crmeth.2022.100385.Peer-Reviewed Original ResearchConceptsDorsal root ganglion neuronsCurrent-clamp recordingsCurrent-clamp analysisVoltage-gated sodium channelsPatch-clamp techniqueExcitable cellsGanglion neuronsElectrophysiological recordingsNeuronal cellsNeuronsGold standard methodologySodium channelsCellular levelRobotic instrumentsCellsDrug screeningSame cellsIntact tissueRecordings
2022
Depolarizing NaV and Hyperpolarizing KV Channels Are Co-Trafficked in Sensory Neurons
Higerd-Rusli GP, Alsaloum M, Tyagi S, Sarveswaran N, Estacion M, Akin EJ, Dib-Hajj FB, Liu S, Sosniak D, Zhao P, Dib-Hajj SD, Waxman SG. Depolarizing NaV and Hyperpolarizing KV Channels Are Co-Trafficked in Sensory Neurons. Journal Of Neuroscience 2022, 42: 4794-4811. PMID: 35589395, PMCID: PMC9188389, DOI: 10.1523/jneurosci.0058-22.2022.Peer-Reviewed Original ResearchIon channel traffickingMembrane proteinsChannel traffickingAxonal membrane proteinsTransport vesiclesPhysiological functionsSame vesiclesAxonal proteinsSpecific transport vesiclesIon channelsTrafficking of NaDiverse physiological functionsExcitability disordersDifferent physiological functionsDistinct ion channelsSensory neuron membraneSensory neuronsDistinct functional classesDistinct functional rolesNormal neuronal excitabilityTrafficking mechanismsNeuronal excitabilityPlasma membraneTherapeutic strategiesPrecise regulation
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply