Search results for "Subventricular zone"

showing 10 items of 98 documents

Prox1 Is Required for Oligodendrocyte Cell Identity in Adult Neural Stem Cells of the Subventricular Zone

2016

Abstract Adult neural stem cells with the ability to generate neurons and glia cells are active throughout life in both the dentate gyrus (DG) and the subventricular zone (SVZ). Differentiation of adult neural stem cells is induced by cell fate determinants like the transcription factor Prox1. Evidence has been provided for a function of Prox1 as an inducer of neuronal differentiation within the DG. We now show that within the SVZ Prox1 induces differentiation into oligodendrocytes. Moreover, we find that loss of Prox1 expression in vivo reduces cell migration into the corpus callosum, where the few Prox1 deficient SVZ-derived remaining cells fail to differentiate into oligodendrocytes. Thu…

0301 basic medicineAdult neurogenesisMice0302 clinical medicineNeural Stem CellsCell MovementLateral VentriclesPromoter Regions GeneticCells CulturedMOUSE-BRAINReceptors NotchOligodendrocytesNeurogenesisCell DifferentiationLINEAGEAnatomyOlfactory BulbNeural stem cellCell biologyNeuroepithelial cellAdult Stem CellsOligodendrogliaDIFFERENTIATIONEnhancer Elements Geneticmedicine.anatomical_structureGene Knockdown TechniquesMolecular MedicineSPINAL-CORDStem cellSUBCELLULAR-LOCALIZATIONProtein BindingAdult stem cellOLIG2NeurogenesisSubventricular zoneBiology03 medical and health sciencesNeurosphereProx1medicineAnimalsCell LineageOLFACTORY-BULBBody PatterningHomeodomain ProteinsTumor Suppressor ProteinsCell BiologyMAMMALIAN BRAINOligodendrocyte Transcription Factor 2030104 developmental biologyNeuropoiesisPROGENITOR CELLSGene Expression Regulationnervous system030217 neurology & neurosurgeryDevelopmental BiologyStem Cells
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Corrigendum: Intraventricular injections of mesenchymal stem cells activate endogenous functional remyelination in a chronic demyelinating murine mod…

2017

Current treatments for demyelinating diseases are generally only capable of ameliorating the symptoms, with little to no effect in decreasing myelin loss nor promoting functional recovery. Mesenchymal stem cells (MSCs) have been shown by many researchers to be a potential therapeutic tool in treating various neurodegenerative diseases, including demyelinating disorders. However, in the majority of the cases, the effect was only observed locally, in the area surrounding the graft. Thus, in order to achieve general remyelination in various brain structures simultaneously, bone marrow-derived MSCs were transplanted into the lateral ventricles (LVs) of the cuprizone murine model. In this manner…

0301 basic medicineCancer ResearchCellular differentiationImmunologyMesenchymal stem cellSubventricular zoneCell BiologyBiologyNeural stem cellCell biology03 medical and health sciencesCellular and Molecular NeuroscienceMyelin030104 developmental biology0302 clinical medicinemedicine.anatomical_structurenervous systemImmunologymedicineOriginal ArticleRemyelinationProgenitor cellDemyelinating Disorder030217 neurology & neurosurgeryCell deathdisease
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Inflammatory demyelination induces ependymal modifications concomitant to activation of adult (SVZ) stem cell proliferation

2017

Ependymal cells (E1/E2) and ciliated B1cells confer a unique pinwheel architecture to the ventricular surface of the subventricular zone (SVZ), and their cilia act as sensors to ventricular changes during development and aging. While several studies showed that forebrain demyelination reactivates the SVZ triggering proliferation, ectopic migration, and oligodendrogenesis for myelin repair, the potential role of ciliated cells in this process was not investigated. Using conventional and lateral wall whole mount preparation immunohistochemistry in addition to electron microscopy in a forebrain-targeted model of experimental autoimmune encephalomyelitis (tEAE), we show an early decrease in num…

0301 basic medicineEpendymal CellCell divisionCellSubventricular zoneBiologyCell biologyB-1 cell03 medical and health sciencesCellular and Molecular NeuroscienceMyelin030104 developmental biology0302 clinical medicinemedicine.anatomical_structurenervous systemNeurologymedicineMotile ciliumStem cellNeuroscience030217 neurology & neurosurgeryGlia
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p73 is required for ependymal cell maturation and neurogenic SVZ cytoarchitecture

2015

The adult subventricular zone (SVZ) is a highly organized microenvironment established during the first postnatal days when radial glia cells begin to transform into type B-cells and ependymal cells, all of which will form regenerative units, pinwheels, along the lateral wall of the lateral ventricle. Here, we identify p73, a p53 homologue, as a critical factor controlling both cell-type specification and structural organization of the developing mouse SVZ. We describe that p73 deficiency halts the transition of the radial glia into ependymal cells, leading to the emergence of immature cells with abnormal identities in the ventricle and resulting in loss of the ventricular integrity. p73-de…

0301 basic medicineEpendymal CellCiliumNeurogenesisSubventricular zoneBiology03 medical and health sciencesCellular and Molecular NeuroscienceLateral ventricles030104 developmental biologymedicine.anatomical_structureDevelopmental NeuroscienceCytoarchitectureCiliogenesismedicineskin and connective tissue diseasesEpendymaneoplasmsNeuroscienceDevelopmental Neurobiology
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Stable and Efficient Genetic Modification of Cells in the Adult Mouse V-SVZ for the Analysis of Neural Stem Cell Autonomous and Non-autonomous Effects

2016

Relatively quiescent somatic stem cells support life-long cell renewal in most adult tissues. Neural stem cells in the adult mammalian brain are restricted to two specific neurogenic niches: the subgranular zone of the dentate gyrus in the hippocampus and the ventricular-subventricular zone (V-SVZ; also called subependymal zone or SEZ) in the walls of the lateral ventricles. The development of in vivo gene transfer strategies for adult stem cell populations (i.e. those of the mammalian brain) resulting in long-term expression of desired transgenes in the stem cells and their derived progeny is a crucial tool in current biomedical and biotechnological research. Here, a direct in vivo method …

0301 basic medicineEpendymal CellNeurogenesisGeneral Chemical EngineeringGenetic VectorsStem cellsBiologyTransfectionGeneral Biochemistry Genetics and Molecular BiologySubgranular zoneMice03 medical and health sciencesSubependymal zoneNeural Stem CellsEpendymal cellEpendymaLateral VentriclesDevelopmental biologyNichemedicineSubependymal zoneAnimalsNeurogeneticsGeneral Immunology and MicrobiologyLateral ventricleGeneral NeuroscienceLentivirusNeurogenesisGene Transfer TechniquesBrainNeural stem cellCell biology030104 developmental biologymedicine.anatomical_structureVentricular-subventricular zonenervous systemNeural stem cellIssue 108NeurogenèticaStem cellCèl·lules mareDevelopmental biology; Ependymal cell; Issue 108; Lateral ventricle; Lentivirus; Neural stem cell; Neurogenesis; Niche; Subependymal zone; Ventricular-subventricular zone; Animals; Brain; Ependyma; Lateral Ventricles; Lentivirus; Mice; Neural Stem Cells; Transfection; Gene Transfer Techniques; Genetic VectorsDevelopmental biologyNeuroscienceAdult stem cellJournal of Visualized Experiments
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Cyclin-Dependent Kinase 4 Regulates Adult Neural Stem Cell Proliferation and Differentiation in Response to Insulin

2017

Abstract Insulin is one of the standard components used to culture primary neurospheres. Although it stimulates growth of different types of cells, the effects of insulin on adult neural stem cells (NSCs) have not been well characterized. Here, we reveal that insulin stimulates proliferation, but not survival or self-renewal, of adult NSCs. This effect is mediated by insulin receptor substrate 2 (IRS2) and subsequent activation of the protein kinase B (or Akt), leading to increased activity of the G1-phase cyclin-dependent kinase 4 (Cdk4) and cell cycle progression. Neurospheres isolated from Irs2-deficient mice are reduced in size and fail to expand in culture and this impaired proliferati…

0301 basic medicineInsulin Receptor Substrate ProteinsNeurogenesisCellular differentiationBiologyAdult neurogenesisMice03 medical and health sciencesNeural Stem CellsCyclin-dependent kinaseNeurosphereAnimalsInsulinPhosphorylationNeuritogenesisProtein kinase BCell ProliferationCell CycleG1 PhaseCyclin-dependent kinaseCyclin-Dependent Kinase 4Cell DifferentiationCell BiologyIRS2Neural stem cellCell biology030104 developmental biologyVentricular-subventricular zoneInsulin Receptor Substrate Proteinsbiology.proteinMolecular MedicineNeurospheresbiological phenomena cell phenomena and immunityStem cellDevelopmental BiologyStem Cells
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Amyotrophic lateral sclerosis modifies progenitor neural proliferation in adult classic neurogenic brain niches.

2017

Background Adult neurogenesis persists through life at least in classic neurogenic niches. Neurogenesis has been previously described as reduced in neurodegenerative diseases. There is not much knowledge about is adult neurogenesis is or not modified in amyotrophy lateral sclerosis (ALS). All previous publications has studied the ALS SOD1 (superoxide dismutase) transgenic mouse model. The purpose of this study is to examine the process of adult neurogenesis in classic niches (subventricular zone [SVZ] and subgranular zone [SGZ] of the dentate gyrus) in patients with amyotrophic lateral sclerosis (ALS), both with (ALS-FTD) and without associated frontotemporal dementia (FTD). Methods We stud…

0301 basic medicineMalePathologymedicine.medical_specialtyDoublecortin ProteinTDP-43NeurogenesisSOD1Subventricular zoneAdult neurogenesislcsh:RC346-429Subgranular zone03 medical and health sciences0302 clinical medicineNeuroblastNeural Stem CellsLateral VentriclesMedicineHumansAmyotrophic lateral sclerosislcsh:Neurology. Diseases of the nervous systemAgedAged 80 and overbusiness.industryDentate gyrusNeurogenesisAmyotrophic Lateral SclerosisNeurodegenerative diseasesBrainGeneral MedicineMiddle Agedmedicine.diseaseNeural stem cellnervous system diseases030104 developmental biologymedicine.anatomical_structurenervous systemFrontotemporal DementiaFemaleNeurology (clinical)business030217 neurology & neurosurgeryResearch ArticleBMC neurology
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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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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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