2013
A circuitry and biochemical basis for tuberous sclerosis symptoms: from epilepsy to neurocognitive deficits
Feliciano DM, Lin TV, Hartman NW, Bartley CM, Kubera C, Hsieh L, Lafourcade C, O'Keefe RA, Bordey A. A circuitry and biochemical basis for tuberous sclerosis symptoms: from epilepsy to neurocognitive deficits. International Journal Of Developmental Neuroscience 2013, 31: 667-678. PMID: 23485365, PMCID: PMC3830611, DOI: 10.1016/j.ijdevneu.2013.02.008.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsTuberous sclerosis complexCortical lesionsBrain lesionsLoss of heterozygosityNeuronal functionNovel therapeutic targetNeuronal circuit formationMolecular mechanisms downstreamRecent mouse modelsNeurological manifestationsNeurological presentationTSC patientsBenign tumorsBrain malformationsDiscrete lesionsMouse modelNeuropsychiatric problemsTherapeutic targetSynaptic plasticityPerinatal developmentCircuit formationLesionsMTOR hyperactivityNeurocognitive deficitsPsychological impairmentHypoxia-inducible factor 1a is a Tsc1-regulated survival factor in newborn neurons in tuberous sclerosis complex
Feliciano DM, Zhang S, Quon JL, Bordey A. Hypoxia-inducible factor 1a is a Tsc1-regulated survival factor in newborn neurons in tuberous sclerosis complex. Human Molecular Genetics 2013, 22: 1725-1734. PMID: 23349360, PMCID: PMC3613161, DOI: 10.1093/hmg/ddt018.Peer-Reviewed Original ResearchConceptsHypoxia-inducible factor 1aTuberous sclerosis complexShort hairpin RNANewborn neuronsFactor 1ASubventricular zoneSVZ stem cellsNewborn neuron survivalNeurogenic subventricular zoneSingle-cell electroporationTranscriptional activityShRNA expressionHairpin RNAMammalian targetMolecular determinantsNovel microenvironmentNeuron deathNeuron survivalOlfactory lesionsNeonatal miceBrain lesionsStem cellsMouse modelNeuron productionSurvival advantage
2011
Postnatal neurogenesis generates heterotopias, olfactory micronodules and cortical infiltration following single-cell Tsc1 deletion
Feliciano DM, Quon JL, Su T, Taylor MM, Bordey A. Postnatal neurogenesis generates heterotopias, olfactory micronodules and cortical infiltration following single-cell Tsc1 deletion. Human Molecular Genetics 2011, 21: 799-810. PMID: 22068588, PMCID: PMC3263992, DOI: 10.1093/hmg/ddr511.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornCell MovementCerebral CortexDendritesElectroporationFemaleGene DeletionMaleMiceMice, TransgenicNeurogenesisNeurogliaNeuronsOlfactory BulbPeriventricular Nodular HeterotopiaSingle-Cell AnalysisTOR Serine-Threonine KinasesTuberous SclerosisTuberous Sclerosis Complex 1 ProteinTumor Suppressor ProteinsConceptsTuberous sclerosis complexSubventricular zoneBrain lesionsPostnatal subventricular zoneForebrain structuresTsc1 deletionHuman subventricular zoneCortical infiltrationNeurological symptomsNeuropsychiatric symptomsNon-invasive imagingOlfactory lesionsPostnatal neurogenesisTSC patientsPersistent infiltrationTransgenic miceAbnormal circuitsStructural abnormalitiesDendritic treeNeuronal precursorsLesionsEmbryonic neurogenesisNeurogenesisNeuronsMicronodules