2024
Molecular Pharmacology of Selective NaV1.6 and Dual NaV1.6/NaV1.2 Channel Inhibitors that Suppress Excitatory Neuronal Activity Ex Vivo
Goodchild S, Shuart N, Williams A, Ye W, Parrish R, Soriano M, Thouta S, Mezeyova J, Waldbrook M, Dean R, Focken T, Ghovanloo M, Ruben P, Scott F, Cohen C, Empfield J, Johnson J. Molecular Pharmacology of Selective NaV1.6 and Dual NaV1.6/NaV1.2 Channel Inhibitors that Suppress Excitatory Neuronal Activity Ex Vivo. ACS Chemical Neuroscience 2024, 15: 1169-1184. PMID: 38359277, PMCID: PMC10958515, DOI: 10.1021/acschemneuro.3c00757.Peer-Reviewed Original ResearchExcitatory pyramidal neuronsPyramidal neuronsNeuronal action potential firingSeizure modelsActivity of excitatory neuronsInhibition of firingAction potential firingVoltage-gated sodium channelsSuppress epileptiform activityTherapeutic safety marginActivity ex vivoNeuronal hyperexcitabilityInhibitory interneuronsChannel inhibitorsEpileptiform activityInhibitory neuronsPotential firingExcitatory neuronsAntiseizure medicationsExcitatory circuitsBrain slicesReduced excitabilityPharmacological dissectionAntiseizure medication carbamazepineSodium channels
2022
Inhibition of sodium conductance by cannabigerol contributes to a reduction of dorsal root ganglion neuron excitability
Ghovanloo M, Estacion M, Higerd‐Rusli G, Zhao P, Dib‐Hajj S, Waxman SG. Inhibition of sodium conductance by cannabigerol contributes to a reduction of dorsal root ganglion neuron excitability. British Journal Of Pharmacology 2022, 179: 4010-4030. PMID: 35297036, DOI: 10.1111/bph.15833.Peer-Reviewed Original ResearchConceptsEffect of cannabigerolDRG neuronsDorsal root ganglion neuron excitabilityVoltage-gated sodium currentDorsal root ganglion neuronsLower CBG concentrationPrimary dorsal root ganglion neuronsAnalgesic drug developmentNon-psychotropic phytocannabinoidMultielectrode array recordingsAction potential modellingInhibition of NaDRG excitabilityGanglion neuronsNeuron excitabilityAnalgesic propertiesCNS neuronsNeuronal hypoexcitabilityCBG concentrationsChannel inhibitorsSodium currentNeuronsFunctional selectivityDrug developmentUnderlying mechanism