Featured Publications
Convergent and Divergent Mechanisms of Epileptogenesis in mTORopathies
Nguyen LH, Bordey A. Convergent and Divergent Mechanisms of Epileptogenesis in mTORopathies. Frontiers In Neuroanatomy 2021, 15: 664695. PMID: 33897381, PMCID: PMC8064518, DOI: 10.3389/fnana.2021.664695.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsPI3K-mTOR pathwayCortical developmentGene variantsPotential therapeutic strategyIntractable epilepsyNeuronal placementTherapeutic strategiesAnimal modelsEpilepsyElectrophysiological phenotypeNeurodevelopmental disordersRapamycin complex 1Mechanistic targetEpileptogenesisIndependent mechanismsMTORopathiesGATOR1 complexPersonalized medicineDivergent mechanismsMosaic patternEverolimusMalformationsHyperactivityPathwayVariants
2024
mTOR in Acquired and Genetic Models of Epilepsy
Wong M, Bordey A, Danzer S. mTOR in Acquired and Genetic Models of Epilepsy. 2024, 45-74. DOI: 10.1093/med/9780197549469.003.0004.Peer-Reviewed Original ResearchDisrupted mTOR signalingMTOR signalingDysregulation of mTOR signalingCellular functionsMTOR pathway signalingAbstract MutationsTarget of rapamycinPathway signalingSignaling pathwayGenetic modelsMTOR pathwayPathway disruptionMTORPathwayNongenetic causesRegulate brain developmentGeneral patternTraumatic brain injuryTuberous sclerosis complexGenetic model of epilepsyPatterns of brain pathologyPotential mechanismsSignalBrain developmentModulator of epileptogenesis
2019
GATORopathies: The role of amino acid regulatory gene mutations in epilepsy and cortical malformations
Iffland PH, Carson V, Bordey A, Crino PB. GATORopathies: The role of amino acid regulatory gene mutations in epilepsy and cortical malformations. Epilepsia 2019, 60: 2163-2173. PMID: 31625153, PMCID: PMC7155771, DOI: 10.1111/epi.16370.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsCellular amino acid levelsRegulatory gene mutationsActivator RhebAmino acid levelsProtein complexesSingle geneRegulatory proteinsGene mutationsMechanistic targetNPRL3Rapamycin (mTOR) pathwayMTOR activationMTOR pathwayMutationsNPRL2MTOR inhibitionGenesFocal cortical dysplasia type IIaMTORDEPDC5ProteinPivotal rolePathwayRecent studiesNeuronal excitability
2014
Embryonic Cerebrospinal Fluid Nanovesicles Carry Evolutionarily Conserved Molecules and Promote Neural Stem Cell Amplification
Feliciano DM, Zhang S, Nasrallah CM, Lisgo SN, Bordey A. Embryonic Cerebrospinal Fluid Nanovesicles Carry Evolutionarily Conserved Molecules and Promote Neural Stem Cell Amplification. PLOS ONE 2014, 9: e88810. PMID: 24533152, PMCID: PMC3923048, DOI: 10.1371/journal.pone.0088810.Peer-Reviewed Original ResearchConceptsNeural stem cellsRapamycin complex 1 (mTORC1) pathwayIntracellular pathwaysStem cell amplificationInsulin-like growth factorCoordinated regulationGenetic programMicroRNA componentsExosome NanovesiclesEmbryonic CSFCell amplificationStem cellsENSCsPathwayCoordinated transferGrowth factorHuman embryosBrain developmentNanovesiclesMixed cultureAmplificationMoleculesEmbryosProteinExosomes
2013
Neonatal subventricular zone electroporation.
Feliciano DM, Lafourcade CA, Bordey A. Neonatal subventricular zone electroporation. Journal Of Visualized Experiments 2013 PMID: 23426329, PMCID: PMC3601042, DOI: 10.3791/50197.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsNeural stem cellsGenetic engineeringEmbryonic neural stem cellsWhole animal levelMultiple cell typesSVZ neural stem cellsMammalian systemsMolecular pathwaysCell typesStem cellsTime-effective alternativeRodent forebrainAnimal levelElectroporationEpendymal cellsInvertebratesCellsCortical developmentRobust labelingProgenyCentral nervous system disordersNervous system disordersDifferentiationPathwayVast majority