Search results for "Neural stem cells"

showing 10 items of 133 documents

Characterization of the canine rostral ventricular-subventricular zone: Morphological, immunohistochemical, ultrastructural, and neurosphere assay st…

2017

The mammalian ventricular-subventricular zone (V-SVZ) presents the highest neurogenic potential in the brain of the adult individual. In rodents, it is mainly composed of chains of neuroblasts. In humans, it is organized in layers where neuroblasts do not form chains. The aim of this study is to describe the cytoarchitecture of canine V-SVZ (cV-SVZ), to assess its neurogenic potential, and to compare our results with those previously described in other species. We have studied by histology, immunohistochemistry (IHC), electron microscopy and neurosphere assay the morphology, cytoarchitecture and neurogenic potential of cV-SVZ. Age groups of animals were performed. Histological and ultrastru…

0301 basic medicineMalePathologymedicine.medical_specialtyanimal diseasesSubventricular zoneBiology03 medical and health sciences0302 clinical medicineDogsNeuroblastNeural Stem CellsSpecies SpecificityNeurospheremedicineSubependymal zoneAnimalsStem Cell NicheCells CulturedGeneral NeuroscienceNeurogenesisBrainHistologyImmunohistochemistryMicroscopy Electron030104 developmental biologymedicine.anatomical_structurenervous systemCytoarchitectureImmunohistochemistryFemale030217 neurology & neurosurgeryThe Journal of comparative neurology
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Synaptic Regulator α-Synuclein in Dopaminergic Fibers Is Essentially Required for the Maintenance of Subependymal Neural Stem Cells.

2018

Synaptic protein -synuclein (-SYN) modulates neurotransmission in a complex and poorly understood manner and aggregates in the cytoplasm of degenerating neurons in Parkinsons disease. Here, we report that -SYN present in dopaminergic nigral afferents is essential for the normal cycling and maintenance of neural stem cells (NSCs) in the brain subependymal zone of adult male and female mice. We also showthat premature senescence of adult NSCs into non-neurogenic astrocytes in mice lacking-SYN resemblesthe effects of dopaminergic fiber degeneration resulting from chronic exposure to 1-methyl-4-phenyl-1,2,3,6-tetra-hydropyridine or intranigral inoculation of aggregated toxic -SYN. Interestingly…

0301 basic medicineMaleanimal diseases[SDV]Life Sciences [q-bio]DopamineNeurogenesisRegulatorniche biologyBiologyNeurotransmissionenvironment and public health03 medical and health scienceschemistry.chemical_compoundstemnessMice0302 clinical medicineNeural Stem CellsDopaminemedicineSubependymal zoneAnimalsHumansheterocyclic compoundsNeurons AfferentStem Cell NicheResearch ArticlesparkinsonismCellular SenescenceGeneral NeuroscienceMPTPDopaminergic NeuronsNeurogenesisDopaminergicBrainNeural stem cellMice Mutant Strains3. Good healthnervous system diseases[SDV] Life Sciences [q-bio]adult neurogenesis030104 developmental biologychemistrynervous systemalpha-SynucleinFemaleNeuroscience030217 neurology & neurosurgerySnca knock-outmedicine.drug
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The Role of SVZ Stem Cells in Glioblastoma

2019

As most common primary brain cancer, glioblastoma is also the most aggressive and malignant form of cancer in the adult central nervous system. Glioblastomas are genetic and transcriptional heterogeneous tumors, which in spite of intensive research are poorly understood. Over the years conventional therapies failed to affect a cure, resulting in low survival rates of affected patients. To improve the clinical outcome, an important approach is to identify the cells of origin. One potential source for these are neural stem cells (NSCs) located in the subventricular zone, which is one of two niches in the adult nervous system where NSCs with the capacity of self-renewal and proliferation resid…

0301 basic medicineNervous systemCancer ResearchSubventricular zoneReviewBiologylcsh:RC254-282brain tumor stem cells03 medical and health sciences0302 clinical medicineCancer stem cellmedicineProgenitor cellneural stem cellstherapyNeurogenesisglioblastomasubventricular zoneCancerlcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogensmedicine.diseaseNeural stem cellnervous system diseasesneurogenesis030104 developmental biologymedicine.anatomical_structurenervous systemOncology030220 oncology & carcinogenesisCancer researchStem cellCancers
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Neural stem cells in the adult olfactory bulb core generate mature neurons in vivo.

2021

17 páginas, 7 figuras.

0301 basic medicineNeurobiologia del desenvolupamentRostral migratory streamNeurogenesisSubventricular zoneStem cellsAdult neurogenesis03 medical and health sciencesMiceOlfactory bulb0302 clinical medicineCalretininNeural Stem CellsInterneuronsmedicineAnimalsDevelopmental neurobiologyNeural stem cellsNeuronsbiologyNeurogenesisCell DifferentiationCell BiologyOlfactory BulbNeural stem cellDoublecortinCell biologyOlfactory bulb030104 developmental biologymedicine.anatomical_structurenervous systemSynapsesbiology.proteinMolecular MedicineNeuronNeuNCèl·lules mare030217 neurology & neurosurgeryDevelopmental BiologyStem cells (Dayton, Ohio)REFERENCES
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TOX3 regulates neural progenitor identity

2016

The human genomic locus for the transcription factor TOX3 has been implicated in susceptibility to restless legs syndrome and breast cancer in genome-wide association studies, but the physiological role of TOX3 remains largely unknown. We found Tox3 to be predominantly expressed in the developing mouse brain with a peak at embryonic day E14 where it co-localizes with the neural stem and progenitor markers Nestin and Sox2 in radial glia of the ventricular zone and intermediate progenitors of the subventricular zone. Tox3 is also expressed in neural progenitor cells obtained from the ganglionic eminence of E15 mice that express Nestin, and it specifically binds the Nestin promoter in chromati…

0301 basic medicineNeurogenesisBiophysicsNotch signaling pathwaySubventricular zoneMice TransgenicBiologyBiochemistryMice03 medical and health sciences0302 clinical medicineNeural Stem CellsSOX2PregnancyStructural BiologyGeneticsmedicineAnimalsRNA Small InterferingProgenitor cellMolecular BiologyCells Culturedreproductive and urinary physiologyNeuronsNeurogenesisGene Expression Regulation DevelopmentalNestinEmbryo MammalianMolecular biologyNeural stem cellMice Inbred C57BL030104 developmental biologymedicine.anatomical_structurenervous systemembryonic structuresTrans-ActivatorsFemaleStem cellApoptosis Regulatory ProteinsReceptors Progesterone030217 neurology & neurosurgeryBiochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms
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Engineering of Adult Neurogenesis and Gliogenesis

2016

Neural stem/progenitor cells (NSPCs) retain their ability to generate newborn neurons throughout life in the mammalian brain. Here, we describe how recently developed virus- and transgenesis-based techniques will help us (1) to understand the functional effects of neurogenesis in health and disease, (2) to design novel approaches to harness the potential for NSPC-associated endogenous repair, and (3) to induce the generation of neurons outside the main neurogenic niches in the adult brain.

0301 basic medicineNeurogenesisCellular differentiationPhysiology610 Medicine & healthBiologyGeneral Biochemistry Genetics and Molecular BiologyMice03 medical and health sciencesNeural Stem Cells1300 General Biochemistry Genetics and Molecular BiologyAnimalsHumansProgenitor cellCell ProliferationGliogenesis10242 Brain Research InstituteNeurogenesisBrainCell DifferentiationMammalian brainTechniquesNeural stem cell030104 developmental biology570 Life sciences; biologyNeuroscience
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Fetal neurogenesis: breathe HIF you can.

2016

Blood vessels are part of the stem cell niche in the developing cerebral cortex, but their in vivo role in controlling the expansion and differentiation of neural stem cells (NSCs) in development has not been studied. Here, we report that relief of hypoxia in the developing cerebral cortex by ingrowth of blood vessels temporo‐spatially coincided with NSC differentiation. Selective perturbation of brain angiogenesis in vessel‐specific Gpr124 null embryos, which prevented the relief from hypoxia, increased NSC expansion at the expense of differentiation. Conversely, exposure to increased oxygen levels rescued NSC differentiation in Gpr124 null embryos and increased it further in WT embryos, s…

0301 basic medicineNeurogenesisNicheNeovascularization PhysiologicBiologyCell fate determinationGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesMiceFetusNeural Stem CellsmedicineAnimalsHumansNews & ViewsHypoxiaMolecular BiologyCentral elementreproductive and urinary physiologyCell ProliferationCerebral CortexFetusGeneral Immunology and MicrobiologyGeneral NeuroscienceNeurogenesisCell DifferentiationArticlesHypoxia-Inducible Factor 1 alpha Subunitnervous system diseasesOxygen030104 developmental biologymedicine.anatomical_structurenervous systemCerebral cortexImmunologyNeuronStem cellbiological phenomena cell phenomena and immunityNeuroscienceGlycolysisThe EMBO journal
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Unique Organization of the Nuclear Envelope in the Post-natal Quiescent Neural Stem Cells

2017

Summary Neural stem cells (B1 astrocytes; NSCs) in the adult ventricular-subventricular-zone (V-SVZ) originate in the embryo. Surprisingly, recent work has shown that B1 cells remain largely quiescent. They are reactivated postnatally to function as primary progenitors for neurons destined for the olfactory bulb and some corpus callosum oligodendrocytes. The cellular and molecular properties of quiescent B1 cells remain unknown. Here we found that a subpopulation of B1 cells has a unique nuclear envelope invagination specialization similar to envelope-limited chromatin sheets (ELCS), reported in certain lymphocytes and some cancer cells. Using molecular markers, [3H]thymidine birth-dating, …

0301 basic medicineNuclear EnvelopeV-SVZBiologyBiochemistry*nuclear ELCSArticleMice03 medical and health sciences*neural stem cellsNeural Stem CellsLateral VentriclesGeneticsAnimalsquiescenceProgenitor celllcsh:QH301-705.5Cells CulturedGeneticslcsh:R5-920*quiescencenuclear envelope invaginationsCell CycleCell Biology*V-SVZnuclear ELCS*nuclear envelope invaginationsEmbryonic stem cellChromatinNeural stem cellOlfactory bulbCell biologyChromatinB-1 cellAdult Stem Cells030104 developmental biologylcsh:Biology (General)nervous systemAstrocytesCancer celllcsh:Medicine (General)Developmental BiologyAdult stem cell
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Nucleocytoplasmic transport of the RNA-binding protein CELF2 regulates neural stem cell fates.

2020

The development of the cerebral cortex requires balanced expansion and differentiation of neural stem/progenitor cells (NPCs), which rely on precise regulation of gene expression. Because NPCs often exhibit transcriptional priming of cell-fate-determination genes, the ultimate output of these genes for fate decisions must be carefully controlled in a timely fashion at the post-transcriptional level, but how that is achieved is poorly understood. Here, we report that de novo missense variants in an RNA-binding protein CELF2 cause human cortical malformations and perturb NPC fate decisions in mice by disrupting CELF2 nucleocytoplasmic transport. In self-renewing NPCs, CELF2 resides in the cyt…

0301 basic medicineRegulation of gene expressionNeurogenesisRNA-Binding ProteinsTranslation (biology)RNA-binding proteinCell DifferentiationNerve Tissue ProteinsBiologyCell fate determinationGeneral Biochemistry Genetics and Molecular BiologyNeural stem cellCell biology03 medical and health sciences030104 developmental biology0302 clinical medicineNeural Stem CellsNucleocytoplasmic TransportCELF ProteinsHumansProgenitor cell030217 neurology & neurosurgeryCell reports
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TET3 prevents terminal differentiation of adult NSCs by a non-catalytic action at Snrpn.

2019

Ten-eleven-translocation (TET) proteins catalyze DNA hydroxylation, playing an important role in demethylation of DNA in mammals. Remarkably, although hydroxymethylation levels are high in the mouse brain, the potential role of TET proteins in adult neurogenesis is unknown. We show here that a non-catalytic action of TET3 is essentially required for the maintenance of the neural stem cell (NSC) pool in the adult subventricular zone (SVZ) niche by preventing premature differentiation of NSCs into non-neurogenic astrocytes. This occurs through direct binding of TET3 to the paternal transcribed allele of the imprinted gene Small nuclear ribonucleoprotein-associated polypeptide N (Snrpn), contr…

0301 basic medicineScienceCellular differentiationGeneral Physics and AstronomySubventricular zone02 engineering and technologyBiologyDNA-binding proteinArticleGeneral Biochemistry Genetics and Molecular BiologyCatalysissnRNP Core ProteinsDioxygenases03 medical and health sciencesMiceNeural Stem CellsLateral VentriclesProto-Oncogene ProteinsmedicineAnimalsRNA Small Interferinglcsh:SciencePsychological repressionreproductive and urinary physiologyMultidisciplinarySnRNP Core ProteinsQNeurogenesisBrainCell DifferentiationGeneral Chemistry021001 nanoscience & nanotechnologyNeural stem cellnervous system diseasesCell biologyDNA-Binding Proteins030104 developmental biologymedicine.anatomical_structurenervous systemAstrocyteslcsh:Qbiological phenomena cell phenomena and immunity0210 nano-technologyGenomic imprintingSignal Transduction
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