2023
Multiomic analyses implicate a neurodevelopmental program in the pathogenesis of cerebral arachnoid cysts
Kundishora A, Allington G, McGee S, Mekbib K, Gainullin V, Timberlake A, Nelson-Williams C, Kiziltug E, Smith H, Ocken J, Shohfi J, Allocco A, Duy P, Elsamadicy A, Dong W, Zhao S, Wang Y, Qureshi H, DiLuna M, Mane S, Tikhonova I, Fu P, Castaldi C, López-Giráldez F, Knight J, Furey C, Carter B, Haider S, Moreno-De-Luca A, Alper S, Gunel M, Millan F, Lifton R, Torene R, Jin S, Kahle K. Multiomic analyses implicate a neurodevelopmental program in the pathogenesis of cerebral arachnoid cysts. Nature Medicine 2023, 29: 667-678. PMID: 36879130, DOI: 10.1038/s41591-023-02238-2.Peer-Reviewed Original ResearchConceptsArachnoid cystCerebral arachnoid cystsDe novo variantsAC pathogenesisDevelopmental brain lesionsStructural brain diseaseAppropriate clinical contextPatients' medical recordsDamaging de novo variantsMedical recordsClinical severityBrain lesionsHealthy individualsAC subtypesBrain diseasesGenetic testingNeurodevelopmental pathologyClinical contextPathogenesisPatient phenotypesNeurodevelopmental programsNovo variantsRNA sequencing transcriptomeHuman brainCysts
2020
Exome Sequencing Implicates Impaired GABA Signaling and Neuronal Ion Transport in Trigeminal Neuralgia
Dong W, Jin SC, Allocco A, Zeng X, Sheth AH, Panchagnula S, Castonguay A, Lorenzo LÉ, Islam B, Brindle G, Bachand K, Hu J, Sularz A, Gaillard J, Choi J, Dunbar A, Nelson-Williams C, Kiziltug E, Furey CG, Conine S, Duy PQ, Kundishora AJ, Loring E, Li B, Lu Q, Zhou G, Liu W, Li X, Sierant MC, Mane S, Castaldi C, López-Giráldez F, Knight JR, Sekula RF, Simard JM, Eskandar EN, Gottschalk C, Moliterno J, Günel M, Gerrard JL, Dib-Hajj S, Waxman SG, Barker FG, Alper SL, Chahine M, Haider S, De Koninck Y, Lifton RP, Kahle KT. Exome Sequencing Implicates Impaired GABA Signaling and Neuronal Ion Transport in Trigeminal Neuralgia. IScience 2020, 23: 101552. PMID: 33083721, PMCID: PMC7554653, DOI: 10.1016/j.isci.2020.101552.Peer-Reviewed Original ResearchTrigeminal neuralgiaNeuronal ion transportImpairment of GABAVoltage-gated CaMechanical allodyniaTN pathogenesisPain syndromePain behaviorGABA signalingReceptor ClDisease pathogenesisTN casesFamilial clusteringExome sequencingGenetic factorsVariant burdenNeuralgiaRare damaging variantsPathogenesisGABAChannel CaDamaging variantsProbandsParent-offspring triosLarge-scale genomic studies
2018
De Novo Mutation in Genes Regulating Neural Stem Cell Fate in Human Congenital Hydrocephalus
Furey CG, Choi J, Jin SC, Zeng X, Timberlake AT, Nelson-Williams C, Mansuri MS, Lu Q, Duran D, Panchagnula S, Allocco A, Karimy JK, Khanna A, Gaillard JR, DeSpenza T, Antwi P, Loring E, Butler WE, Smith ER, Warf BC, Strahle JM, Limbrick DD, Storm PB, Heuer G, Jackson EM, Iskandar BJ, Johnston JM, Tikhonova I, Castaldi C, López-Giráldez F, Bjornson RD, Knight JR, Bilguvar K, Mane S, Alper SL, Haider S, Guclu B, Bayri Y, Sahin Y, Apuzzo MLJ, Duncan CC, DiLuna ML, Günel M, Lifton RP, Kahle KT. De Novo Mutation in Genes Regulating Neural Stem Cell Fate in Human Congenital Hydrocephalus. Neuron 2018, 99: 302-314.e4. PMID: 29983323, PMCID: PMC7839075, DOI: 10.1016/j.neuron.2018.06.019.Peer-Reviewed Original ResearchConceptsCongenital hydrocephalusNeural stem cell fateHuman congenital hydrocephalusDamaging de novoCerebrospinal fluid homeostasisSubstantial morbidityCH patientsTherapeutic ramificationsSignificant burdenBrain ventriclesCH pathogenesisNeural tube developmentFluid homeostasisDe novo mutationsExome sequencingAdditional probandsHydrocephalusPathogenesisNovo mutationsNovo duplicationProbandsDe novoCell fateMorbidityPatients