Featured Publications
Apoptotic Functions of PDCD10/CCM3, the Gene Mutated in Cerebral Cavernous Malformation 3
Chen L, Tanriover G, Yano H, Friedlander R, Louvi A, Gunel M. Apoptotic Functions of PDCD10/CCM3, the Gene Mutated in Cerebral Cavernous Malformation 3. Stroke 2009, 40: 1474-1481. PMID: 19246713, PMCID: PMC2709460, DOI: 10.1161/strokeaha.108.527135.Peer-Reviewed Original ResearchMeSH KeywordsApoptosisApoptosis Regulatory ProteinsCaspase 3Central Nervous System NeoplasmsCulture Media, Serum-FreeEndothelial CellsGene Expression Regulation, NeoplasticHeLa CellsHemangioma, Cavernous, Central Nervous SystemHumansIn Situ Nick-End LabelingMembrane ProteinsMutationP38 Mitogen-Activated Protein KinasesProto-Oncogene ProteinsRNA, Small InterferingTransfectionUmbilical Veins
2014
Exceptional aggressiveness of cerebral cavernous malformation disease associated with PDCD10 mutations
Shenkar R, Shi C, Rebeiz T, Stockton RA, McDonald DA, Mikati AG, Zhang L, Austin C, Akers AL, Gallione CJ, Rorrer A, Gunel M, Min W, Marcondes de Souza J, Lee C, Marchuk DA, Awad IA. Exceptional aggressiveness of cerebral cavernous malformation disease associated with PDCD10 mutations. Genetics In Medicine 2014, 17: 188-196. PMID: 25122144, PMCID: PMC4329119, DOI: 10.1038/gim.2014.97.Peer-Reviewed Original ResearchMeSH Keywords1-(5-Isoquinolinesulfonyl)-2-MethylpiperazineAdolescentAdultAnimalsApoptosis Regulatory ProteinsCarrier ProteinsCells, CulturedCentral Nervous System NeoplasmsChildChild, PreschoolDisease Models, AnimalHemangioma, Cavernous, Central Nervous SystemHuman Umbilical Vein Endothelial CellsHumansInfantIntracellular Signaling Peptides and ProteinsKeratin-1Membrane ProteinsMiceMiddle AgedMutationProspective StudiesProto-Oncogene ProteinsRho-Associated KinasesStress FibersYoung AdultConceptsCerebral cavernous malformation diseaseRho-kinase activityLesion burdenExceptional aggressivenessCerebral cavernous malformation lesionsSporadic cerebral cavernous malformationBrain vascular permeabilityPreclinical therapeutic testingDesign of trialsPotential therapeutic targetCerebral cavernous malformationsClinical manifestationsBrain permeabilityEndothelial stress fibersSkin lesionsVascular permeabilityCavernous malformationsTherapeutic targetTherapeutic testingFrequent hemorrhagesKinase activityClinical phenotypeClinical counselingHeterozygous miceEndothelial cellsCcm3, 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
2011
Loss of cerebral cavernous malformation 3 (Ccm3) in neuroglia leads to CCM and vascular pathology
Louvi A, Chen L, Two AM, Zhang H, Min W, Günel M. Loss of cerebral cavernous malformation 3 (Ccm3) in neuroglia leads to CCM and vascular pathology. Proceedings Of The National Academy Of Sciences Of The United States Of America 2011, 108: 3737-3742. PMID: 21321212, PMCID: PMC3048113, DOI: 10.1073/pnas.1012617108.Peer-Reviewed Original ResearchConceptsNeural cellsCerebral cavernous malformationsCell-nonautonomous mechanismsPathogenesis of CCMsRho GTPase signalingCell-autonomous mechanismsCell-autonomous roleCerebral cavernous malformation 3Cell death 10Central nervous systemConditional mouse mutantsNonautonomous functionsCytoskeletal remodelingRNA sequencingCCM3/Mouse mutantsNeurovascular unitNonautonomous mechanismsProper developmentVascular lesionsGene 1Function mutationsNervous systemAutonomous mechanismsLate functions
2009
CCM2 and CCM3 proteins contribute to vasculogenesis and angiogenesis in human placenta.
Tanriover G, Seval Y, Sati L, Gunel M, Demir N. CCM2 and CCM3 proteins contribute to vasculogenesis and angiogenesis in human placenta. Cellular And Molecular Biology 2009, 24: 1287-94. PMID: 19688696, DOI: 10.14670/hh-24.1287.Peer-Reviewed Original ResearchMeSH KeywordsApoptosis Regulatory ProteinsCarrier ProteinsCase-Control StudiesCentral Nervous System NeoplasmsFemaleHemangioma, Cavernous, Central Nervous SystemHumansImmunohistochemistryMembrane ProteinsNeovascularization, PathologicPlacentaPregnancyPregnancy Trimester, FirstPregnancy Trimester, ThirdProto-Oncogene ProteinsConceptsCerebral cavernous malformationsVascular endotheliumBlood vessel formationHuman placentaMature intermediate villiVascular malformationsStem villiTerm placentaVessel formationIntermediate villiNormal brain parenchymaMeans of immunohistochemistryCentral nervous systemEndothelium-lined vascular channelsWestern blot analysisEarly pregnancyBrain parenchymaModerate immunostainingCavernous malformationsNervous systemVascular channelsPlacental developmentPlacentaEndotheliumLess expression
2008
PDCD10, the gene mutated in cerebral cavernous malformation 3, is expressed in the neurovascular unit.
Tanriover G, Boylan AJ, Diluna ML, Pricola KL, Louvi A, Gunel M. PDCD10, the gene mutated in cerebral cavernous malformation 3, is expressed in the neurovascular unit. Neurosurgery 2008, 62: 930-8; discussion 938. PMID: 18496199, DOI: 10.1227/01.neu.0000318179.02912.ca.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosis Regulatory ProteinsCerebral ArteriesEndothelium, VascularHumansIntracranial Arteriovenous MalformationsMembrane ProteinsMiceMutationProto-Oncogene ProteinsTissue DistributionConceptsMultiple organ systemsNeurovascular unitPostnatal mouse brainCerebral cavernous malformation 3Mouse brainCell death 10 geneArterial endotheliumOrgan systemsGranule cell layerMessenger ribonucleic acid expressionRibonucleic acid expressionCCM3/PDCD10Brainstem tissueEmbryonic mouse brainSeptal nucleusCortical plateDentate gyrusHypothalamic nucleiOlfactory bulbHuman cerebralInferior colliculusSolid organ tissuesVenous structuresVenous endotheliumDisease pathogenesis
2005
Mutations in Apoptosis-related Gene, PDCD10, Cause Cerebral Cavernous Malformation 3
Guclu B, Ozturk AK, Pricola KL, Bilguvar K, Shin D, O’Roak B, Gunel M. Mutations in Apoptosis-related Gene, PDCD10, Cause Cerebral Cavernous Malformation 3. Neurosurgery 2005, 57: 1008-1013. PMID: 16284570, DOI: 10.1227/01.neu.0000180811.56157.e1.Peer-Reviewed Original ResearchCerebral Venous Malformations Have Distinct Genetic Origin From Cerebral Cavernous Malformations
Guclu B, Ozturk AK, Pricola KL, Seker A, Ozek M, Gunel M. Cerebral Venous Malformations Have Distinct Genetic Origin From Cerebral Cavernous Malformations. Stroke 2005, 36: 2479-2480. PMID: 16239636, DOI: 10.1161/01.str.0000183616.99139.d3.Peer-Reviewed Original ResearchMeSH KeywordsApoptosis Regulatory ProteinsBlood VesselsCarrier ProteinsChildDNA Mutational AnalysisExonsFamily HealthFemaleFrameshift MutationGene Expression RegulationHumansIntracranial Arteriovenous MalformationsKRIT1 ProteinMaleMembrane ProteinsMicrotubule-Associated ProteinsModels, GeneticMutationPedigreeProto-Oncogene ProteinsConceptsMutational analysisCerebral cavernous malformationsDistinct genetic originsCCM genesCerebral venous malformationSuch mutationsCausative genesUnique familyFrameshift mutationGenesGenetic originCCM1 geneCommon originMutationsFamilyVenous malformationsPathogenetic mechanismsCavernous malformationsMembersDistinct biologyPDCD10BiologyExon 19KRIT1Different pathogenetic mechanisms