2018
Biallelic loss of human CTNNA2, encoding αN-catenin, leads to ARP2/3 complex overactivity and disordered cortical neuronal migration
Schaffer AE, Breuss MW, Caglayan AO, Al-Sanaa N, Al-Abdulwahed HY, Kaymakçalan H, Yılmaz C, Zaki MS, Rosti RO, Copeland B, Baek ST, Musaev D, Scott EC, Ben-Omran T, Kariminejad A, Kayserili H, Mojahedi F, Kara M, Cai N, Silhavy JL, Elsharif S, Fenercioglu E, Barshop BA, Kara B, Wang R, Stanley V, James KN, Nachnani R, Kalur A, Megahed H, Incecik F, Danda S, Alanay Y, Faqeih E, Melikishvili G, Mansour L, Miller I, Sukhudyan B, Chelly J, Dobyns WB, Bilguvar K, Jamra RA, Gunel M, Gleeson JG. Biallelic loss of human CTNNA2, encoding αN-catenin, leads to ARP2/3 complex overactivity and disordered cortical neuronal migration. Nature Genetics 2018, 50: 1093-1101. PMID: 30013181, PMCID: PMC6072555, DOI: 10.1038/s41588-018-0166-0.Peer-Reviewed Original ResearchConceptsNeuronal migrationHuman cerebral cortexCortical neuronal migrationΒ-catenin signalingCerebral cortexPotential disease mechanismsDevelopmental brain defectsBiallelic truncating mutationsNeuronal phenotypeBiallelic lossBrain defectsBiallelic mutationsTruncating mutationsDisease mechanismsΒ-cateninPachygyriaRecessive formNeurite stabilityNeuronsFamily membersCTNNA2OveractivityPatients
2011
The Essential Role of Centrosomal NDE1 in Human Cerebral Cortex Neurogenesis
Bakircioglu M, Carvalho OP, Khurshid M, Cox JJ, Tuysuz B, Barak T, Yilmaz S, Caglayan O, Dincer A, Nicholas AK, Quarrell O, Springell K, Karbani G, Malik S, Gannon C, Sheridan E, Crosier M, Lisgo SN, Lindsay S, Bilguvar K, Gergely F, Gunel M, Woods CG. The Essential Role of Centrosomal NDE1 in Human Cerebral Cortex Neurogenesis. American Journal Of Human Genetics 2011, 88: 523-535. PMID: 21529752, PMCID: PMC3146716, DOI: 10.1016/j.ajhg.2011.03.019.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell Cycle ProteinsCentrosomeCerebral CortexChild, PreschoolDNA Mutational AnalysisEpithelial CellsExonsFemaleGenetic LinkageHeLa CellsHomozygoteHumansInfantMaleMiceMicrocephalyMicrotubule-Associated ProteinsMutationNeural Stem CellsNeurogenesisNeuronsPhenotypePregnancyRNA, MessengerTransfectionConceptsCortical laminationPatient-derived cell linesDistinct homozygous mutationsProfound mental retardationCerebral cortexCerebral cortex neurogenesisMouse embryonic brainNeuron productionBrain scansPostmortem dataEmbryonic brainNeural precursorsHomozygous mutationNeuroepithelial cellsNeurogenesisPatient cellsMental retardationExtreme microcephalyAffected individualsEarly neurogenesisCell linesT mutationPakistani originBrainTurkish family
2004
KRIT1/Cerebral Cavernous Malformation 1 Protein Localizes to Vascular Endothelium, Astrocytes, and Pyramidal Cells of the Adult Human Cerebral Cortex
Guzeloglu-Kayisli O, Amankulor NM, Voorhees J, Luleci G, Lifton RP, Gunel M. KRIT1/Cerebral Cavernous Malformation 1 Protein Localizes to Vascular Endothelium, Astrocytes, and Pyramidal Cells of the Adult Human Cerebral Cortex. Neurosurgery 2004, 54: 943-949. PMID: 15046662, DOI: 10.1227/01.neu.0000114512.59624.a5.Peer-Reviewed Original ResearchMeSH KeywordsAdultAstrocytesBlotting, WesternBrain NeoplasmsCerebral CortexChromosome AberrationsEndothelium, VascularGene Expression Regulation, NeoplasticGenes, DominantHemangioma, CavernousHemangioma, Cavernous, Central Nervous SystemHumansImmunoenzyme TechniquesKRIT1 ProteinMicrotubule-Associated ProteinsProto-Oncogene ProteinsPyramidal CellsConceptsCerebral cavernous malformationsCerebral cortexCavernous malformationsVascular endotheliumCentral nervous system vasculatureAdult human cerebral cortexEndothelial cellsCerebral cavernous malformation lesionsBlood-brain barrierAstrocytic foot processesFamilial cerebral cavernous malformationsHuman cerebral cortexCentral nervous systemAutosomal dominant disorderCerebral angiogenesisPyramidal neuronsPyramidal cellsBlood-organ barriersNervous systemWhite pulpRed pulpIntense stainingWestern blottingFoot processesCardiac myocytes