2023
Genetic Profiling of Sodium Channels in Diabetic Painful and Painless and Idiopathic Painful and Painless Neuropathies
Almomani R, Sopacua M, Marchi M, Ślęczkowska M, Lindsey P, de Greef B, Hoeijmakers J, Salvi E, Merkies I, Ferdousi M, Malik R, Ziegler D, Derks K, Boenhof G, Martinelli-Boneschi F, Cazzato D, Lombardi R, Dib-Hajj S, Waxman S, Smeets H, Gerrits M, Faber C, Lauria G, Group O. Genetic Profiling of Sodium Channels in Diabetic Painful and Painless and Idiopathic Painful and Painless Neuropathies. International Journal Of Molecular Sciences 2023, 24: 8278. PMID: 37175987, PMCID: PMC10179245, DOI: 10.3390/ijms24098278.Peer-Reviewed Original ResearchConceptsDiabetic peripheral neuropathySmall fiber neuropathyPainless neuropathySFN patientsPainful neuropathyPeripheral neuropathyNeuropathy patientsPainless diabetic peripheral neuropathyPathogenic variantsPersonalized pain treatmentPainful peripheral neuropathyDifferent pathogenic variantsGenetic profilingSodium channel genePotential pathogenic variantsDPN patientsNeuropathic painNociceptive pathwaysPain treatmentNeuropathyPatientsSodium channelsFrequent featureDifferent centersSCN7ANav1.7 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 ResearchConceptsParoxysmal 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 ResearchConceptsSmall 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
2017
COL6A5 variants in familial neuropathic chronic itch
Martinelli-Boneschi F, Colombi M, Castori M, Devigili G, Eleopra R, Malik RA, Ritelli M, Zoppi N, Dordoni C, Sorosina M, Grammatico P, Fadavi H, Gerrits MM, Almomani R, Faber CG, Merkies IS, Toniolo D, Network F, Cocca M, Doglioni C, Waxman S, Dib-Hajj S, Taiana M, Sassone J, Lombardi R, Cazzato D, Zauli A, Santoro S, Marchi M, Lauria G. COL6A5 variants in familial neuropathic chronic itch. Brain 2017, 140: 555-567. PMID: 28073787, DOI: 10.1093/brain/aww343.Peer-Reviewed Original ResearchConceptsChronic itchSmall fiber neuropathyJHS/EDS-HT patientsJoint hypermobility syndrome/Ehlers-Danlos syndrome hypermobility typeNew candidate therapeutic targetsIntraepidermal nerve fiber densityEhlers-Danlos syndrome hypermobility typeEDS-HT patientsNonsense variantNerve fiber densitySkin of patientsCandidate therapeutic targetUnrelated sporadic patientsWhole-exome sequencingItch reliefNeuropathic itchDiabetic patientsHypermobility typeSomatosensory pathwaysHealthy controlsSkin biopsiesSide effectsTherapeutic targetPatientsSporadic patients
2016
Familial gain-of-function Nav1.9 mutation in a painful channelopathy
Han C, Yang Y, Morsche R, Drenth JP, Politei JM, Waxman SG, Dib-Hajj SD. Familial gain-of-function Nav1.9 mutation in a painful channelopathy. Journal Of Neurology Neurosurgery & Psychiatry 2016, 88: 233. PMID: 27503742, DOI: 10.1136/jnnp-2016-313804.Peer-Reviewed Original ResearchConceptsPain disordersPainful small fiber neuropathyDorsal root ganglion neuronsSmall fiber neuropathyPotential therapeutic targetVoltage-clamp recordingsFunction mutationsPain symptomsGastrointestinal disturbancesGanglion neuronsClinical examinationHyperpolarising shiftFunctional assessmentTherapeutic targetDistal extremitiesPhenotypic spectrumElectrophysiological recordingsPatientsBlood relativesFirst arginine residuePainAcceleration of activationSegment 4ChannelopathiesDisorders
2011
Gain of function NaV1.7 mutations in idiopathic small fiber neuropathy
Faber CG, Hoeijmakers JG, Ahn H, Cheng X, Han C, Choi J, Estacion M, Lauria G, Vanhoutte EK, Gerrits MM, Dib‐Hajj S, Drenth JP, Waxman SG, Merkies IS. Gain of function NaV1.7 mutations in idiopathic small fiber neuropathy. Annals Of Neurology 2011, 71: 26-39. PMID: 21698661, DOI: 10.1002/ana.22485.Peer-Reviewed Original ResearchConceptsSmall nerve fibre neuropathyIntraepidermal nerve fiber densityQuantitative sensory testingSmall-diameter peripheral axonsDorsal root ganglion neuronsGanglion neuronsPeripheral axonsSodium channelsAbnormal intraepidermal nerve fibre densityAbnormal quantitative sensory testingIdiopathic small fiber neuropathyFunction Nav1.7 mutationsNerve conduction studiesNerve fiber densitySmall fiber neuropathyVoltage-gated sodium channelsRare genetic syndromeExpression of gainTendon reflexesConduction studiesNav1.7 mutationUnderlying etiologyVibration senseSensory testingPatients