Search results for " Neurogenesis"

showing 10 items of 61 documents

Neurovascular EGFL7 regulates adult neurogenesis in the subventricular zone and thereby affects olfactory perception

2016

Adult neural stem cells reside in a specialized niche in the subventricular zone (SVZ). Throughout life they give rise to adult-born neurons in the olfactory bulb (OB), thus contributing to neural plasticity and pattern discrimination. Here, we show that the neurovascular protein EGFL7 is secreted by endothelial cells and neural stem cells (NSCs) of the SVZ to shape the vascular stem-cell niche. Loss of EGFL7 causes an accumulation of activated NSCs, which display enhanced activity and re-entry into the cell cycle. EGFL7 pushes activated NSCs towards quiescence and neuronal progeny towards differentiation. This is achieved by promoting Dll4-induced Notch signalling at the blood vessel-stem …

Male0301 basic medicineGeneral Physics and AstronomyNEURAL STEM-CELLSMOUSEMiceSUBEPENDYMAL ZONENeural Stem CellsLateral VentriclesLINEAGE PROGRESSIONBRAININ-VIVOMice KnockoutNeuronal PlasticityMultidisciplinaryCell CycleQNeurogenesisNICHEAnatomyNeural stem cellCell biologyAdult Stem Cellsmedicine.anatomical_structureSignal TransductionSTIMULATES NEUROGENESISEGF Family of ProteinsNeurogenesisScienceNotch signaling pathwaySubventricular zoneBiologyInhibitory postsynaptic potentialArticleGeneral Biochemistry Genetics and Molecular Biology03 medical and health sciencesNeuroplasticitymedicineBiological neural networkAnimalsCalcium-Binding ProteinsProteinsGeneral ChemistryOlfactory PerceptionENDOTHELIAL-CELLSnervous system diseasesOlfactory bulbMice Inbred C57BLSELF-RENEWAL030104 developmental biologynervous system
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PSA-NCAM is expressed in immature, but not recently generated, neurons in the adult cat cerebral cortex layer II

2011

Neuronal production persists during adulthood in the dentate gyrus and the olfactory bulb, where substantial numbers of immature neurons can be found. These cells can also be found in the paleocortex layer II of adult rodents, but in this case most of them have been generated during embryogenesis. Recent reports have described the presence of similar cells, with a wider distribution, in the cerebral cortex of adult cats and primates and have suggested that they may develop into interneurons. The objective of this study is to verify this hypothesis and to explore the origin of these immature neurons in adult cats. We have analyzed their distribution using immunohistochemical analysis of the …

InterneuroninterneuronAdult neurogenesislcsh:RC321-571Interneuronmedicineprincipal neuronlcsh:Neurosciences. Biological psychiatry. Neuropsychiatryneuronal differentiationOriginal ResearchStructural plasticitybiologyGeneral NeuroscienceDentate gyrusNeurogenesisColocalizationstructural plasticityOlfactory bulbadult neurogenesismedicine.anatomical_structurenervous systemNeuronal differentiationCerebral cortexbiology.proteinPrincipal neuronNeural cell adhesion moleculeNeuNNeuroscienceNeuroscience
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Redox regulation of genome stability by effects on gene expression, epigenetic pathways and DNA damage/repair

2015

Reactive oxygen and nitrogen species (e.g. H2O2, nitric oxide) confer redox regulation of essential cellular signaling pathways such as cell differentiation, proliferation, migration and apoptosis. In addition, classical regulation of gene expression or activity, including gene transcription to RNA followed by translation to the protein level, by transcription factors (e.g. NF-κB, HIF-1α) and mRNA binding proteins (e.g. GAPDH, HuR) is subject to redox regulation. This review will give an update of recent discoveries in this field, and specifically highlight the impact of reactive oxygen and nitrogen species on DNA repair systems that contribute to genomic stability. Emphasis will be placed …

Genome instabilityRedox signalingRNA UntranslatedEpigenetic regulation of neurogenesisDNA RepairHuR mRNA-binding protein in the 3′-untranslated regionClinical BiochemistryHDAC histone deacetylaseReview ArticleAP-1 activator protein 1BiochemistryApe-1 apurinic/apyrimidinic endonuclease 1GPx-1 glutathione peroxidase-1Epigenesis GeneticHistonesTrx thioredoxinPHD prolylhydroxylaseBER base excision repairlcsh:QH301-705.5HO-1 heme oxygenase-1EpigenomicsGeneticsRegulation of gene expressionNox member of the NADPH oxidase familylcsh:R5-920JmjC Jumonji C domain-containing histone demethylasesHIF-1α hypoxia inducible factor-1α5-hmC 5-hydroxymethylcytosineddc:Cell biologyMMP matrix metalloproteinaseGrx glutaredoxinGAPDH glyceraldehyde-3-phosphate dehydrogenaseNrf2 nuclear factor erythroid related factor 2DNA methylationEpigeneticslcsh:Medicine (General)Oxidation-ReductionSignal Transduction5-mC 5-methylcytosineDNA repairDNA damageNF-κB nuclear factor-κBBiologyGenomic InstabilityRNS reactive nitrogen speciesROS reactive oxygen speciesNER nucleotide excision repairSOD superoxide dismutaseOxyR transcription factor (hydrogen peroxide-inducible genes activator)HumansEpigeneticsOrganic ChemistryPETN pentaerithrityl tetranitrateGene regulationOxidative StressDNMT DNA methyltransferaseGene Expression Regulationlcsh:Biology (General)AREs AU-rich elementsHAT histone acetyltransferaseKeap1 kelch-like ECH-associated protein 1BiomarkersCOPD chronic obstructive pulmonary disorderDNA DamageRedox Biology
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Neural Stem Cell Regulation by Adhesion Molecules Within the Subependymal Niche

2019

In the mammalian adult brain, neural stem cells persist in neurogenic niches. The subependymal zone is the most prolific neurogenic niche in adult rodents, where residing stem cells generate large numbers of immature neurons that migrate into the olfactory bulb, where they differentiate into different types of interneurons. Subependymal neural stem cells derive from embryonic radial glia and retain some of their features like apico-basal polarity, with apical processes piercing the ependymal layer, and a basal process contacting blood vessels, constituting an epithelial niche. Conservation of the cytoarchitecture of the niche is of crucial importance for the maintenance of stem cells and fo…

0301 basic medicineMini Reviewextracellular matrixNicheBiologyQuiescenceAdult neurogenesis03 medical and health sciencesCell and Developmental Biologyneural stem cell0302 clinical medicineSubependymal zoneNicheSubependymal zoneadhesion moleculesquiescencelcsh:QH301-705.5Ecological nicheNeurogenesisCell BiologyExtracellular matrixEmbryonic stem cellNeural stem cellCell biologyOlfactory bulbadult neurogenesisniche030104 developmental biologylcsh:Biology (General)Neural stem cell030220 oncology & carcinogenesissubependymal zoneStem cellAdhesion moleculesDevelopmental BiologyFrontiers in Cell and Developmental Biology
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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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Chromatin remodelling factor Mll1 is essential for neurogenesis from postnatal neural stem cells

2009

Epigenetic mechanisms that maintain neurogenesis throughout adult life remain poorly understood(1). Trithorax group (trxG) and Polycomb group (PcG) gene products are part of an evolutionarily conserved chromatin remodelling system that activate or silence gene expression, respectively(2). Although PcG member Bmi1 has been shown to be required for postnatal neural stem cell self-renewal(3,4), the role of trxG genes remains unknown. Here we show that the trxG member Mll1 (mixed-lineage leukaemia 1) is required for neurogenesis in the mouse postnatal brain. Mll1-deficient subventricular zone neural stem cells survive, proliferate and efficiently differentiate into glial lineages; however, neur…

Chromatin ImmunoprecipitationEpigenetic regulation of neurogenesisCell SurvivalNeurogenesisCellular differentiationSubventricular zoneNerve Tissue ProteinsBiologyMethylationArticleHistonesMiceBasic Helix-Loop-Helix Transcription FactorsmedicineAnimalsCell LineageCells CulturedCell ProliferationGliogenesisHomeodomain ProteinsNeuronsMultidisciplinaryStem CellsNeurogenesisCell DifferentiationHistone-Lysine N-MethyltransferaseOligodendrocyte Transcription Factor 2Chromatin Assembly and DisassemblyOlfactory BulbMolecular biologyChromatinNeural stem cellCell biologyChromatinmedicine.anatomical_structureAnimals NewbornStem cellNeurogliaMyeloid-Lymphoid Leukemia ProteinTranscription Factors
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The lizard cerebral cortex as a model to study neuronal regeneration

2002

The medial cerebral cortex of lizards, an area homologous to the hippocampal fascia dentata, shows delayed postnatal neurogenesis, i.e., cells in the medial cortex ependyma proliferate and give rise to immature neurons, which migrate to the cell layer. There, recruited neurons differentiate and give rise to zinc containing axons directed to the rest of cortical areas, thus resulting in a continuous growth of the medial cortex and its zinc-enriched axonal projection. This happens along the lizard life span, even in adult lizards, thus allowing one of their most important characteristics: neuronal regeneration. Experiments in our laboratory have shown that chemical lesion of the medial cortex…

neurogênese pós-natalMedial cortexhippocampushipocampoHippocampusBiologyHippocampal formationcélulas-troncomedicineAnimalsmedial cortexcortex mediallcsh:Scienceneural stem cellsCerebral CortexNeuronsMultidisciplinaryzincLizardsAnatomypostnatal neurogenesisNeural stem cellNerve Regenerationregeneraçãomedicine.anatomical_structurenervous systemzincoCerebral cortexregenerationModels AnimalFascia dentatalcsh:QNeuronSeasonsEpendymaNeuroscienceAnais da Academia Brasileira de Ciências
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Cocaine and MDMA Induce Cellular and Molecular Changes in Adult Neurogenic Systems: Functional Implications

2011

The capacity of the brain to generate new adult neurons is a recent discovery that challenges the old theory of an immutable adult brain. A new and fascinating field of research now focuses on this regenerative process. The two brain systems that constantly produce new adult neurons, known as the adult neurogenic systems, are the dentate gyrus (DG) of the hippocampus and the lateral ventricules/olfactory bulb system. Both systems are involved in memory and learning processes. Different drugs of abuse, such as cocaine and MDMA, have been shown to produce cellular and molecular changes that affect adult neurogenesis. This review summarizes the effects that these drugs have on the adult neurog…

medicine.medical_specialtyDrugs of abuseMDMAlcsh:Medicinelcsh:RS1-441Pharmaceutical ScienceHippocampuscocaineReviewBiologylcsh:Pharmacy and materia medicamemoryDrug Discoverymedicinedentate gyrusPsychiatryDentate gyruslcsh:RNeurogenesisMDMAOlfactory bulbadult neurogenesisnervous systemMolecular MedicineNeurosciencemedicine.drugPharmaceuticals
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FGF-2/FGFR1 neurotrophic system expression level and its basal activation do not account for the age-dependent decline of precursor cell proliferatio…

2010

It is largely accepted that neurogenesis in the adult brain decreases with age and reduced levels of local neurotrophic support is speculated to be a contributing factor. Among neurotrophic factors involved on neurogenesis, we focused our attention on the neurotrophic system fibroblast growth factor-2 (FGF-2) and its receptor FGFR1, a potent modulator of precursor cell proliferation. In the present work, we aimed to analyse if potential age-dependent changes of the FGF-2/FGFR1 neurotrophic system may give account for the age-dependent decline of precursor cell proliferation in the neurogenic region of the subventricular zone (SVZ) in the rat brain. Using in situ hybridization and western bl…

MaleAgingmedicine.medical_specialtySubventricular zoneNeurogenesisReceptor expressionFGF-2Subventricular zoneFibroblast growth factorSettore BIO/09 - FisiologiaCerebral VentriclesFGF-2; FGFR1; Neurogenesis; Subventricular zone; Neuronal precursor cells; AgingGrowth factor receptorNeurotrophic factorsInternal medicinePrecursor cellmedicineAnimalsRNA MessengerReceptor Fibroblast Growth Factor Type 1PhosphorylationRats WistarMolecular BiologyCell ProliferationMitogen-Activated Protein Kinase 3biologyPhospholipase C gammaGeneral NeuroscienceNeurogenesisBrainNeuronal precursor cellRatsAdult Stem CellsFGFR1medicine.anatomical_structureEndocrinologyBromodeoxyuridineGene Expression Regulationbiology.proteinFibroblast Growth Factor 1NeurogenesiFibroblast Growth Factor 2Neurology (clinical)Developmental BiologyNeurotrophinBrain Research
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Signaling through BMPR-IA regulates quiescence and long-term activity of neural stem cells in the adult hippocampus.

2010

SummaryNeural stem cells (NSCs) in the adult hippocampus divide infrequently, and the molecules that modulate their quiescence are largely unknown. Here, we show that bone morphogenetic protein (BMP) signaling is active in hippocampal NSCs, downstream of BMPR-IA. BMPs reversibly diminish proliferation of cultured NSCs while maintaining their undifferentiated state. In vivo, acute blockade of BMP signaling in the hippocampus by intracerebral infusion of Noggin first recruits quiescent NSCs into the cycle and increases neurogenesis; subsequently, it leads to decreased stem cell division and depletion of precursors and newborn neurons. Consistently, selective ablation of Bmpr1a in hippocampal …

medicine.medical_specialtyanimal structuresGenetic VectorsHippocampal formationBiologyBone morphogenetic proteinHippocampusModels BiologicalMOLNEUROCell LineMiceNeural Stem CellsInternal medicineGeneticsmedicineAnimalsHumansNogginBone Morphogenetic Protein Receptors Type ICells Culturedreproductive and urinary physiologySmad4 ProteinNeuronsReverse Transcriptase Polymerase Chain ReactionStem CellsCell CycleLentivirusNeurogenesisCentral-nervous-system; Bone morphogenetic protein; Dentate gyrus; Progenitor cells; Neurogenesis; Expression; Receptor; Noggin; Brain; DifferentiationCell BiologyFlow CytometrySTEMCELLRats Inbred F344BMPR1ANeural stem cellRatsCell biologyEndocrinologyStem cell divisionnervous systemembryonic structuresMolecular MedicineStem cellbiological phenomena cell phenomena and immunityCarrier ProteinsSignal Transduction
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