2015
Vascular Endothelial Growth Factor Receptor 3 Controls Neural Stem Cell Activation in Mice and Humans
Han J, Calvo CF, Kang TH, Baker KL, Park JH, Parras C, Levittas M, Birba U, Pibouin-Fragner L, Fragner P, Bilguvar K, Duman RS, Nurmi H, Alitalo K, Eichmann AC, Thomas JL. Vascular Endothelial Growth Factor Receptor 3 Controls Neural Stem Cell Activation in Mice and Humans. Cell Reports 2015, 10: 1158-1172. PMID: 25704818, PMCID: PMC4685253, DOI: 10.1016/j.celrep.2015.01.049.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell DifferentiationCell ProliferationCells, CulturedEmbryonic Stem CellsExtracellular Signal-Regulated MAP KinasesHippocampusHumansMiceMice, Inbred C57BLNeural Stem CellsNeurogenesisProto-Oncogene Proteins c-aktRecombinant ProteinsSignal TransductionVascular Endothelial Growth Factor CVascular Endothelial Growth Factor Receptor-3ConceptsHuman embryonic stem cellsNeural stem cellsVascular endothelial growth factor receptor 3Growth factor receptor 3NSC activationStem cellsProgenitor cellsAdult hippocampal neural stem cellsEmbryonic stem cellsNeural stem cell activationStem cell activationQuiescent neural stem cellsNeural progenitor cellsCell fateReceptor 3Specific regulatorsAdult mammalian hippocampusMolecular mechanismsCell cycleHippocampal neural stem cellsLigand VEGFERK pathwayConditional deletionNew neuronsVEGFR3
2011
A complex between contactin-1 and the protein tyrosine phosphatase PTPRZ controls the development of oligodendrocyte precursor cells
Lamprianou S, Chatzopoulou E, Thomas J, Bouyain S, Harroch S. A complex between contactin-1 and the protein tyrosine phosphatase PTPRZ controls the development of oligodendrocyte precursor cells. Proceedings Of The National Academy Of Sciences Of The United States Of America 2011, 108: 17498-17503. PMID: 21969550, PMCID: PMC3198311, DOI: 10.1073/pnas.1108774108.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBinding SitesCell DifferentiationCell ProliferationContactin 1Crystallography, X-RayHumansMiceMice, KnockoutModels, MolecularModels, NeurologicalMultiprotein ComplexesNeural Stem CellsNeurogenesisOligodendrogliaProtein Structure, TertiaryReceptor-Like Protein Tyrosine Phosphatases, Class 5Recombinant ProteinsSolubilityConceptsCarbonic anhydrase-like domainPrecursor cellsReceptor protein tyrosineOligodendrocyte precursor cellsPtprz-deficient miceProtein tyrosineCell adhesion moleculeNeural cell adhesion moleculeBiological roleContactin familyCocrystal structureGlial cell populationsUnknown modulatorsPtprzCentral nervous systemCell populationsCNTN1Structural dataAdhesion moleculesBindsContactin-1CellsMature oligodendrocytesComplexesNervous system
2000
RGS14 is a novel Rap effector that preferentially regulates the GTPase activity of galphao.
Traver S, Bidot C, Spassky N, Baltauss T, De Tand M, Thomas J, Zalc B, Janoueix-Lerosey I, Gunzburg J. RGS14 is a novel Rap effector that preferentially regulates the GTPase activity of galphao. Biochemical Journal 2000, 350 Pt 1: 19-29. PMID: 10926822, PMCID: PMC1221220, DOI: 10.1042/0264-6021:3500019.Peer-Reviewed Original ResearchConceptsGTPase activityRap effectorRGS proteinsRas/RapTwo-hybrid systemHeterotrimeric G proteinsRaf-1 kinaseG protein-coupled receptorsSitu hybridization experimentsRap proteinsGTPase Rap2Galpha subunitsHeterotrimeric proteinDeletion analysisDomain sharesRGS14Hybridization experimentsRap2B-RafAlpha subunitG proteinsProteinSitu hybridization studiesCertain cellsHybridization studies