2015
Functional Synergy between Cholecystokinin Receptors CCKAR and CCKBR in Mammalian Brain Development
Nishimura S, Bilgüvar K, Ishigame K, Sestan N, Günel M, Louvi A. Functional Synergy between Cholecystokinin Receptors CCKAR and CCKBR in Mammalian Brain Development. PLOS ONE 2015, 10: e0124295. PMID: 25875176, PMCID: PMC4398320, DOI: 10.1371/journal.pone.0124295.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornBone Morphogenetic Protein 7Cell MovementChemokine CXCL12CholecystokininCorpus CallosumEmbryo, MammalianGene Expression ProfilingGene Expression Regulation, DevelopmentalHomozygoteHumansInterneuronsMiceMice, KnockoutMidline Thalamic NucleiMutationNeocortexNeuropilin-2Receptor, Cholecystokinin AReceptor, Cholecystokinin BReceptors, N-Methyl-D-AspartateSignal TransductionTranscriptomeConceptsCCK receptorsBrain developmentMammalian neocortical developmentCentral nervous systemCortical interneuron migrationHomozygous mutant miceMammalian brain developmentPeripheral organsReceptor lossCorpus callosumCortical developmentPostnatal brainAbundant neuropeptideNervous systemInterneuron migrationMutant miceEmbryonic neocortexNeocortical developmentReceptorsPeptide hormonesG proteinsCholecystokininReciprocal expressionCCKBRBrain
2014
Ccm3, a gene associated with cerebral cavernous malformations, is required for neuronal migration
Louvi A, Nishimura S, Günel M. Ccm3, a gene associated with cerebral cavernous malformations, is required for neuronal migration. Development 2014, 141: 1404-1415. PMID: 24595293, PMCID: PMC3943187, DOI: 10.1242/dev.093526.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosis Regulatory ProteinsCell MovementCell ProliferationCyclin-Dependent Kinase 5FemaleHemangioma, Cavernous, Central Nervous SystemIntracellular Signaling Peptides and ProteinsMiceMice, KnockoutMice, TransgenicNeocortexNeural Stem CellsNeurogliaPregnancyRho GTP-Binding ProteinsRhoA GTP-Binding ProteinSignal TransductionConceptsCerebral cavernous malformation 3Neuronal migrationCerebral cavernous malformationsRadial glia progenitorsCell non-autonomous functionCerebrovascular disordersPyramidal neuronsCortical plateLaminar positioningSubventricular zoneCortical developmentCavernous malformationsRadial gliaLoss of functionNascent neuronsNeuronal morphologySevere malformationsGlia progenitorsNeural progenitorsNeuronsNon-autonomous functionsMalformationsRhoA pathwayPossible interactionsGlia
2007
The derivatives of the Wnt3a lineage in the central nervous system
Louvi A, Yoshida M, Grove EA. The derivatives of the Wnt3a lineage in the central nervous system. The Journal Of Comparative Neurology 2007, 504: 550-569. PMID: 17701978, DOI: 10.1002/cne.21461.Peer-Reviewed Original ResearchConceptsSpinal cordCervical spinal cordTrigeminal sensory systemRostral spinal cordCentral nervous systemCentral auditory systemDorsal midlineGenetic fate mappingSpecific functional networksAdult brainNervous systemDorsal halfBrain structuresCordLineage cellsAuditory systemMidbrainCell fate specificationVertebrate neural tubeNeural tubeFate mappingFunctional networksTransient gene expressionMidlineFate specification
2004
Presenilin 1 in migration and morphogenesis in the central nervous system
Louvi A, Sisodia SS, Grove EA. Presenilin 1 in migration and morphogenesis in the central nervous system. Development 2004, 131: 3093-3105. PMID: 15163631, DOI: 10.1242/dev.01191.Peer-Reviewed Original ResearchMeSH KeywordsAmyloid Precursor Protein SecretasesAnimalsAspartic Acid EndopeptidasesBrainBrain StemBromodeoxyuridineCell DifferentiationCell DivisionCell MovementCentral Nervous SystemCerebellumColoring AgentsCyclin-Dependent Kinase 5Cyclin-Dependent KinasesCytoskeletonDopamine AgentsEndopeptidasesGene Expression Regulation, DevelopmentalHomozygoteImmunohistochemistryIn Situ HybridizationLightMembrane ProteinsMiceMutationNeuronsPresenilin-1Time FactorsConceptsCentral nervous systemNervous systemPresenilin 1Premature neuronal differentiationCNS morphogenesisCerebral cortexCortical dysplasiaCortical laminationExternal granule layerPontine nucleiPresenilin-1 functionCerebellar granule cell precursorsFacial branchiomotor nucleusTangential migratory pathwayCaudal midbrainGranule cell precursorsNeuronal cellsBrain developmentNeuronal migrationTangential migrationBranchiomotor nucleiCell precursorsNeuronal differentiationGranule layerMidline fusion
2003
The isthmic neuroepithelium is essential for cerebellar midline fusion
Louvi A, Alexandre P, Métin C, Wurst W, Wassef M. The isthmic neuroepithelium is essential for cerebellar midline fusion. Development 2003, 130: 5319-5330. PMID: 14507778, DOI: 10.1242/dev.00736.Peer-Reviewed Original Research