2023
Nav1.7 gain-of-function mutation I228M triggers age-dependent nociceptive insensitivity and C-LTMR dysregulation
Wimalasena N, Taub D, Shim J, Hakim S, Kawaguchi R, Chen L, El-Rifai M, Geschwind D, Dib-Hajj S, Waxman S, Woolf C. Nav1.7 gain-of-function mutation I228M triggers age-dependent nociceptive insensitivity and C-LTMR dysregulation. Experimental Neurology 2023, 364: 114393. PMID: 37003485, PMCID: PMC10171359, DOI: 10.1016/j.expneurol.2023.114393.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsFemaleGain of Function MutationGanglia, SpinalMaleMiceMutationNAV1.7 Voltage-Gated Sodium ChannelNociceptionSodiumConceptsParoxysmal extreme pain disorderSmall fiber neuropathyFunction mutationsDRG neuron hyperexcitabilityYoung adult miceVoltage-gated sodium channel NaSodium conductanceAge-related changesNeuron hyperexcitabilityPain disordersCongenital insensitivitySodium channel NaExcitability changesFemale miceMouse DRGYoung miceNeuronal excitabilityNoxious heatSkin lesionsVoltage-gated channelsAdult miceNeuron subtypesNervous systemProfound insensitivityMice
2020
Two independent mouse lines carrying the Nav1.7 I228M gain-of-function variant display dorsal root ganglion neuron hyperexcitability but a minimal pain phenotype
Chen L, Wimalasena NK, Shim J, Han C, Lee SI, Gonzalez-Cano R, Estacion M, Faber CG, Lauria G, Dib-Hajj S, Woolf CJ, Waxman SG. Two independent mouse lines carrying the Nav1.7 I228M gain-of-function variant display dorsal root ganglion neuron hyperexcitability but a minimal pain phenotype. Pain 2020, 162: 1758-1770. PMID: 33323889, PMCID: PMC8119301, DOI: 10.1097/j.pain.0000000000002171.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsGain of Function MutationGanglia, SpinalHumansMiceNAV1.7 Voltage-Gated Sodium ChannelPhenotypeSensory Receptor CellsConceptsSmall fiber neuropathyDorsal root ganglion neuron hyperexcitabilityNeuron hyperexcitabilityMouse linesIdiopathic small fiber neuropathyIntraepidermal nerve fiber lossPainful small fiber neuropathyFunction variantsDRG neuron hyperexcitabilityNerve fiber lossSodium channel Nav1.7Multielectrode array recordingsNeuropathic painThermal hyperalgesiaDRG neuronsFiber lossPain disordersSensory dysfunctionNeuropathy phenotypePain phenotypesM miceSensory neuronsHyperexcitabilityChannel Nav1.7Independent mouse lines
2018
A novel gain-of-function Nav1.7 mutation in a carbamazepine-responsive patient with adult-onset painful peripheral neuropathy
Adi T, Estacion M, Schulman BR, Vernino S, Dib-Hajj S, Waxman S. A novel gain-of-function Nav1.7 mutation in a carbamazepine-responsive patient with adult-onset painful peripheral neuropathy. Molecular Pain 2018, 14: 1744806918815007. PMID: 30392441, PMCID: PMC6856981, DOI: 10.1177/1744806918815007.Peer-Reviewed Original ResearchConceptsPainful peripheral neuropathyDorsal root gangliaPeripheral neuropathyUse-dependent inhibitionDRG neuronsPain disordersM variantFunction Nav1.7 mutationsMulti-electrode array recordingsSympathetic ganglion neuronsCommon pain disordersVoltage-clamp recordingsVoltage-gated sodium channel NaRare MendelianNav1.7 mutationGanglion neuronsSodium channel NaTrigeminal ganglionRoot gangliaNeonatal ratsPatientsNeuropathyMutant channelsFunction variantsNeurons