Search results for "astrocytes"

showing 10 items of 171 documents

Astroglial plasticity in the hippocampus is affected by chronic psychosocial stress and concomitant fluoxetine treatment.

2006

Analysis of post-mortem tissue from patients with affective disorders has revealed a decreased number of glial cells in several brain areas. Here, we examined whether long-term psychosocial stress influences the number and morphology of hippocampal astrocytes in an animal model with high validity for research on the pathophysiology of major depression. Adult male tree shrews were submitted to 5 weeks of psychosocial stress, after which immunocytochemical and quantitative stereological techniques were used to estimate the total number and somal volume of glial fibrillary acidic protein-positive astrocytes in the hippocampal formation. Stress significantly decreased both the number (-25%) and…

Malemedicine.medical_specialtySerotonin reuptake inhibitorHippocampusHippocampal formationHippocampus03 medical and health scienceschemistry.chemical_compound0302 clinical medicineInternal medicineFluoxetinemedicineAnimalsNeurotransmitter030304 developmental biologyPharmacologyTupaia0303 health sciencesFluoxetineNeuronal PlasticityPsychiatry and Mental healthEndocrinologymedicine.anatomical_structurechemistryAstrocytesChronic DiseaseAntidepressantNeurogliaPsychologyNeuroscienceNeuroglia030217 neurology & neurosurgeryStress PsychologicalAstrocytemedicine.drugNeuropsychopharmacology : official publication of the American College of Neuropsychopharmacology

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Identification of calcium sensing receptor (CaSR) mRNA-expressing cells in normal and injured rat brain

2009

Calcium sensing receptor (CaSR), isolated for the first time from bovine and human parathyroid, is a G-protein-coupled receptors that has been involved in diverse physiological functions. At present a complete in vivo work on the identification of CaSR mRNA-expressing cells in the adult brain lacks and this investigation was undertaken in order to acquire more information on cell type expressing CaSR mRNA in the rat brain and to analyse for the first time its expression in different experimental models of brain injury. The expression of CaSR mRNAs was found mainly in scattered cells throughout almost all the brain regions. A double labeling analysis showed a colocalization of CaSR mRNA expr…

Malemedicine.medical_specialtyTime FactorsCentral nervous systemHippocampusCell CountSettore BIO/11 - Biologia MolecolareBiologySettore BIO/09 - Fisiologiachemistry.chemical_compoundSeizuresInternal medicineSettore BIO/10 - BiochimicaCaSRmedicineAnimalsRNA MessengerRats WistarIbotenic AcidMolecular BiologyIn Situ HybridizationNeuronsKainic AcidGeneral NeuroscienceDentate gyrusBrainColocalizationImmunohistochemistryRatsOligodendrogliamedicine.anatomical_structureEndocrinologynervous systemchemistryBrain InjuriesNeurogliaNeurology (clinical)Pyramidal cellCaSR; BrainCalcium sensing receptor (CaSR) isolated for the first time from bovine and human parathyroid is a G-protein-coupled receptors that has been involved in diverse physiological functions. At present a complete in vivo work on the identification of CaSR mRNA-expressing cells in the adult brain lacks and this investigation was undertaken in order to acquire more information on cell type expressing CaSR mRNA in the rat brain and to analyse for the first time its expression in different experimental models of brain injury. The expression of CaSR mRNAs was found mainly in scattered cells throughout almost all the brain regions. A double labeling analysis showed a colocalization of CaSR mRNA expression in neurons and oligodendrocytes whereas it was not found expressed both in the microglia and in astrocytes. One week after kainate-induced seizure CaSR was found in the injured CA3 region of the hippocampus and very interestingly it was found up-regulated in the neurons of CA1-CA2 and dentate gyrus. Similarly 1 week following ibotenic acid injection in the hippocampus CaSR mRNA expression was increased in oligodendrocytes both in the lesioned area and in the contralateral CA1-CA3 pyramidal cell layers and dentate gyrus. One week after needle-induced mechanical lesion an increase of labeled cells expressing CaSR mRNA was observed along the needle track. In conclusion the present results contribute to extend available data on cell type-expressing CaSR in normal and injured brain and could spur to understand the role of CaSR in repairing processes of brain injury.Receptors Calcium-SensingIbotenic acidDevelopmental BiologyAstrocyte

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Involvement of plasmalogens in post-natal retinal vascular development

2014

Objective: Proper development of retinal blood vessels is essential to ensure sufficient oxygen and nutrient supplies to the retina. It was shown that polyunsaturated fatty acids (PUFAs) could modulate factors involved in tissue vascularization. A congenital deficiency in ether-phospholipids, also termed "plasmalogens'', was shown to lead to abnormal ocular vascularization. Because plasmalogens are considered to be reservoirs of PUFAs, we wished to improve our understanding of the mechanisms by which plasmalogens regulate retinal vascular development and whether the release of PUFAs by calcium-independent phospholipase A2 (iPLA2) could be involved. [br/] Methods and Results: By characterizi…

MaleretinaOrganes des sensAngiogenesis[ SDV.AEN ] Life Sciences [q-bio]/Food and Nutritionlcsh:MedicineRetinal NeovascularizationBiochemistryImmunoenzyme TechniquesMicechemistry.chemical_compoundangiogenesisMedicine and Health Sciencesangiogenesis;astrocytes;capillaries;endothelial cells;gene expression;phospholipids;retina;retinal vesselscapillarieslcsh:ScienceCells CulturedOligonucleotide Array Sequence AnalysisMice KnockoutMultidisciplinarymedicine.diagnostic_testReverse Transcriptase Polymerase Chain ReactionLipidsendothelial cellsCell biologyEndothelial stem cellmedicine.anatomical_structureBiochemistry[ SDV.MHEP.OS ] Life Sciences [q-bio]/Human health and pathology/Sensory OrgansAlimentation et NutritionFatty Acids UnsaturatedRetinal DisordersFemaleResearch ArticleAstrocyteEndotheliumSensory OrgansPlasmalogensBiologyReal-Time Polymerase Chain ReactionGroup VI Phospholipases A2AngiopoietinElectroretinographymedicineFood and NutritionAnimalsRNA Messenger[SDV.MHEP.OS]Life Sciences [q-bio]/Human health and pathology/Sensory OrgansphospholipidsRetinaGene Expression Profilinglcsh:Rretinal vesselsastrocytesBiology and Life SciencesRetinalMice Inbred C57BLOphthalmologyAnimals Newbornchemistrygene expressionlcsh:QEndothelium Vascular[SDV.AEN]Life Sciences [q-bio]/Food and NutritionAcyltransferasesBiomarkersDevelopmental BiologyElectroretinography

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Astrocytes Protect Neurons from Aβ1-42 Peptide-Induced Neurotoxicity Increasing TFAM and PGC-1 and Decreasing PPAR-γ and SIRT-1

2015

One of the earliest neuropathological events in Alzheimer's disease is accumulation of astrocytes at sites of Aβ1-42 depositions. Our results indicate that Aβ1-42 toxic peptide increases lipid peroxidation, apoptosis and cell death in neurons but not in astrocytes in primary culture. Aβ1-42-induced deleterious neuronal effects are not present when neurons and astrocytes are mixed cultured. Stimulation of astrocytes with toxic Aβ1-42 peptide increased p-65 and decreased IκB resulting in inflammatory process. In astrocytes Aβ1-42 decreases protein expressions of sirtuin 1 (SIRT-1) and peroxisome proliferator-activated receptor γ (PPAR-γ) and over-expresses peroxisome proliferator-activated re…

MnSODProgrammed cell deathPPAR-γPeroxisome proliferator-activated receptorMitochondrionBiologyBioinformaticsmedicine.disease_causeAlzheimer's DiseaseNeurologiaPGC-1Sirtuin 1medicineAnimalsTFAMCells Culturedchemistry.chemical_classificationNeuronsAmyloid beta-PeptidesCell DeathSirtuin 1Caspase 3Superoxide DismutaseNeurotoxicityTranscription Factor RelAGeneral MedicineTFAMmedicine.diseasePeroxisome Proliferator-Activated Receptor Gamma Coactivator 1-alphaCoculture TechniquesPeptide FragmentsCell biologyMitochondriaPeroxidesRatsPPAR gammachemistryMitochondrial biogenesisNF-κB.Astrocytesbiology.proteinFisiologia humanaLipid PeroxidationOxidative stressResearch PaperTranscription FactorsInternational Journal of Medical Sciences

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Glial Promoter Selectivity following AAV-Delivery to the Immature Brain

2013

Recombinant adeno-associated virus (AAV) vectors are versatile tools for gene transfer to the central nervous system (CNS) and proof-of-concept studies in adult rodents have shown that the use of cell type-specific promoters is sufficient to target AAV-mediated transgene expression to glia. However, neurological disorders caused by glial pathology usually have an early onset. Therefore, modelling and treatment of these conditions require expanding the concept of targeted glial transgene expression by promoter selectivity for gene delivery to the immature CNS. Here, we have investigated the AAV-mediated green fluorescent protein (GFP) expression driven by the myelin basic protein (MBP) or gl…

MouseCanavan DiseaseGene ExpressionDevelopmental and Pediatric NeurologyPediatricsGreen fluorescent protein0302 clinical medicineGene expressionNeurobiology of Disease and RegenerationTransgenesPromoter Regions GeneticCells Cultured0303 health sciencesMultidisciplinaryGlial fibrillary acidic proteinQStatisticsRAge FactorsBrainGenomicsGene TherapyAnimal ModelsDependovirusOligodendrogliamedicine.anatomical_structureNeurologyOrgan SpecificityMedicineGenetic EngineeringResearch ArticleBiotechnologyScienceTransgeneCentral nervous systemGenetic VectorsGreen Fluorescent ProteinsGene deliveryBiologyBiostatistics03 medical and health sciencesModel OrganismsGenomic MedicineDevelopmental NeuroscienceNeuroglial DevelopmentGlial Fibrillary Acidic ProteinmedicineGeneticsAnimalsBiology030304 developmental biologyClinical GeneticsMyelin Basic ProteinGenetic TherapyMolecular biologyOligodendrocyteMyelin basic proteinMice Inbred C57BLAnimals NewbornAstrocytesbiology.protein030217 neurology & neurosurgeryMathematicsTransgenicsNeurosciencePLoS ONE

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NG2-expressing cells in the nervous system revealed by the NG2-EYFP-knockin mouse.

2008

The NG2 glycoprotein is a type I membrane protein expressed by immature cells in the developing and adult mouse. NG2+ cells of the embryonic and adult brain have been principally viewed as oligodendrocyte precursor cells but have additionally been considered a fourth glial class. They are likely to be a heterogeneous population. In order to facilitate studies on the function of NG2+ cells and to characterize these cells in situ, we generated an enhanced yellow fluorescent protein (EYFP) “knockin mouse.” EYFP-expressing cells in heterozygous knockin mice expressed the NG2 protein in all regions and at all ages studied. The EYFP+ cells did not express markers of mature glia, developing or mat…

Nervous systemYellow fluorescent proteinTransgenePopulationHippocampusS100 Calcium Binding Protein beta SubunitHippocampusNervous SystemMiceEndocrinologyBacterial ProteinsGlutamate-Ammonia LigaseGeneticsmedicineAnimalsGene Knock-In TechniquesNerve Growth FactorsAntigenseducationPromoter Regions GeneticCells CulturedNeuronseducation.field_of_studyMicrogliabiologyS100 ProteinsBrainGene Expression Regulation DevelopmentalCell BiologyEmbryonic stem cellCell biologyLuminescent ProteinsOligodendrogliamedicine.anatomical_structurenervous systemMembrane proteinAstrocytesImmunologybiology.proteinProteoglycansMicrogliaGenesis (New York, N.Y. : 2000)

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Paracrine regulation of neural stem cells in the subependymal zone.

2012

Stem cells maintain their self-renewal and multipotency capacities through a self-organizing network of transcription factors and intracellular pathways activated by extracellular signaling from the microenvironment or "niche" in which they reside in vivo. In the adult mammalian brain new neurons continue to be generated throughout life of the organisms and this lifelong process of neurogenesis is supported by a reservoir of neural stem cells in the germinal regions. The discovery of adult neurogenesis in the mammalian brain has sparked great interest in defining the conditions that guide neural stem cell (NSC) maintenance and differentiation into the great variety of neuronal and glial sub…

NeurogenesisBiophysicsParacrine CommunicationNeovascularization PhysiologicBiologyBiochemistrySynaptic TransmissionParacrine signallingNeural Stem CellsCell MovementNeurosphereEpendymaParacrine CommunicationSubependymal zoneAnimalsHumansStem Cell NicheMolecular BiologyCell ProliferationNeurogenesisOlfactory BulbNeural stem cellNeuroepithelial cellAstrocytesImmunologyChoroid PlexusStem cellNeuroscienceArchives of biochemistry and biophysics

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Reawakening the sleeping beauty in the adult brain: neurogenesis from parenchymal glia

2015

Life-long neurogenesis is highly restricted to specialized niches in the adult mammalian brain and therefore the brain's capacity for spontaneous regeneration is extremely limited. However, recent work has demonstrated that under certain circumstances parenchymal astrocytes and NG2 glia can generate neuronal progeny. In the striatum, stroke or excitotoxic lesions can reawaken in astrocytes a latent neurogenic program resulting in the genesis of new neurons. By contrast, in brain areas that fail to mount a neurogenic response following injury, such as the cerebral cortex, forced expression of neurogenic reprogramming factors can lineage convert local glia into induced neurons. Yet, injury-in…

NeurogenesisStriatumBiologyParenchymaGeneticsmedicineAnimalsHumansRegenerationNeuronsRegulation of gene expressionRegeneration (biology)NeurogenesisGene Expression Regulation DevelopmentalAnatomyCellular Reprogrammingmedicine.anatomical_structurenervous systemCerebral cortexAstrocytesBrain InjuriesNeurogliaNeurogliaNeuroscienceReprogrammingDevelopmental BiologyCurrent Opinion in Genetics & Development

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The human brain subventricular zone: stem cells in this niche and its organization.

2007

The human brain harbors stem cells in the subventricular zone (SVZ). The authors have collected postmortem and intraoperative tissue from adult human patients and found that it contains a unique ribbon of astrocytes that proliferate in vivo and can function as neural stem cells in vitro. Furthermore, they have conducted an anatomic, cytoarchitectural, and ultrastructural study in complete postmortem brains to define the precise organization of the lateral walls of the human lateral ventricles. With immunohistochemistry, the authors mapped a proliferative glial fibrillary acidic protein (GFAP)--positive ribbon of astrocytic cells in the human SVZ. In this article, the authors report on four …

NeuronsGlial fibrillary acidic proteinbiologybusiness.industryHippocampusSubventricular zoneGeneral MedicineHuman brainNeural stem cellCell biologyCerebral VentriclesLateral ventriclesAdult Stem Cellsmedicine.anatomical_structurenervous systemAstrocytesNeural Pathwaysmedicinebiology.proteinImmunohistochemistryHumansSurgeryNeurology (clinical)Stem cellbusinessNeurosurgery clinics of North America

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Neurogenesis in adult subventricular zone

2002

Much excitement has been generated by the identification of adult brain regions harboring neural stem cells and their continual generation of new neurons throughout life. This is an important departure from traditional views of the germinal potential of the postnatal brain. However, a more profound

NeuronsRostral migratory streamGeneral NeuroscienceStem CellsNeurogenesisSubventricular zoneCell DifferentiationBiologyMini-ReviewNeural stem cellLateral ventriclesmedicine.anatomical_structureCell MovementNeuroblast migrationAstrocytesLateral VentriclesmedicineSubependymal zoneAnimalsHumansRegenerationStem cellNeuroscience

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