Search results for "Neurospheres"

showing 4 items of 4 documents

Interaction between Angiotensin Type 1, Type 2, and Mas Receptors to Regulate Adult Neurogenesis in the Brain Ventricular–Subventricular Zone

2019

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MaleAgingproliferationNeurogenesisProliferationSubventricular zoneventricular–subventricular zoneBiologyModels BiologicalReceptor Angiotensin Type 2ArticleReceptor Angiotensin Type 1MiceNeuroblastNeural Stem CellsLateral VentriclesmedicineneurospheresAT1 receptorsAnimalsReceptorNeural stem cellsMice KnockoutAngiotensin II receptor type 1Cell growthAngiotensin IINeurogenesisagingAge FactorsGeneral MedicineImmunohistochemistryNeural stem cellOlfactory bulbCell biologyRatsVentricular–subventricular zonemedicine.anatomical_structurenervous systemAT2 receptorscardiovascular systemNeurosphereshormones hormone substitutes and hormone antagonistscirculatory and respiratory physiologyProtein BindingCells
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Alexander Disease Mutations Produce Cells with Coexpression of Glial Fibrillary Acidic Protein and NG2 in Neurosphere Cultures and Inhibit Differenti…

2017

Background Alexander disease (AxD) is a rare disease caused by mutations in the gene encoding glial fibrillary acidic protein (GFAP). The disease is characterized by presence of GFAP aggregates in the cytoplasm of astrocytes and loss of myelin. Objectives Determine the effect of AxD-related mutations on adult neurogenesis. Methods We transfected different types of mutant GFAP into neurospheres using the nucleofection technique. Results We find that mutations may cause coexpression of GFAP and NG2 in neurosphere cultures, which would inhibit the differentiation of precursors into oligodendrocytes and thus explain the myelin loss occurring in the disease. Transfection produces cells that diff…

0301 basic medicinecaspase-3Cathepsin Dmacromolecular substancesHSP27lcsh:RC346-429oligodendrocyte precursors03 medical and health sciencesMyelin0302 clinical medicineAlexander diseaseNG2Neurosphereneurospheresmedicinecathepsinlcsh:Neurology. Diseases of the nervous systemOriginal ResearchGlial fibrillary acidic proteinbiologyNeurogenesisNestinGFAP stainmedicine.diseaseMolecular biologyAlexander disease030104 developmental biologymedicine.anatomical_structurenervous systemNeurologyglial fibrillary acidic proteinbiology.proteinNeurology (clinical)030217 neurology & neurosurgeryNeuroscienceFrontiers in Neurology
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Intra-operatively obtained human tissue: Protocols and techniques for the study of neural stem cells

2009

The discoveries of neural (NSCs) and brain tumor stem cells (BTSCs) in the adult human brain and in brain tumors, respectively, have led to a new era in neuroscience research. These cells represent novel approaches to studying normal phenomena such as memory and learning, as well as pathological conditions such as Parkinson's disease, stroke, and brain tumors. This new paradigm stresses the importance of understanding how these cells behave in vitro and in vivo. It also stresses the need to use human-derived tissue to study human disease because animal models may not necessarily accurately replicate the processes that occur in humans. An important, but often underused, source of human tissu…

BiopsyBrain tumorCell Culture TechniquesNerve Tissue ProteinsBiologyArticleIntraoperative PeriodIn vivoNeurosphereSpheroids CellularmedicineElectron microscopyHumansProcess (anatomy)NeuronsNeural stem cellsBrain NeoplasmsGeneral NeuroscienceStem CellsBrain tumor stem cellsHuman brainmedicine.diseaseImmunohistochemistryNeural stem cellCulture MediaMicroscopy Electronmedicine.anatomical_structureCell cultureAstrocytesNeoplastic Stem CellsTissue and Organ HarvestingNeurospheresStem cellNeuroscienceBiomarkersImmunocytochemistry
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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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