Search results for "Neurogenesi"

showing 10 items of 336 documents

ESC-Derived BDNF-Overexpressing Neural Progenitors Differentially Promote Recovery in Huntington's Disease Models by Enhanced Striatal Differentiation

2016

Summary Huntington's disease (HD) is characterized by fatal motoric failures induced by loss of striatal medium spiny neurons. Neuronal cell death has been linked to impaired expression and axonal transport of the neurotrophin BDNF (brain-derived neurotrophic factor). By transplanting embryonic stem cell-derived neural progenitors overexpressing BDNF, we combined cell replacement and BDNF supply as a potential HD therapy approach. Transplantation of purified neural progenitors was analyzed in a quinolinic acid (QA) chemical and two genetic HD mouse models (R6/2 and N171-82Q) on the basis of distinct behavioral parameters, including CatWalk gait analysis. Explicit rescue of motor function by…

0301 basic medicineGene ExpressionBiochemistrychemistry.chemical_compoundMice0302 clinical medicineNeural Stem CellsNeurotrophic factorsGenes Reporterlcsh:QH301-705.5Neuronslcsh:R5-920NeurogenesisCell DifferentiationAnatomyembryonic stem cellsHuntington Diseaselcsh:Medicine (General)NeurogliaLocomotionNeurotrophinHuntington’s diseaseCell SurvivalBiologyMedium spiny neuronArticle03 medical and health sciencesHuntington's diseaseGeneticsmedicinestriatal differentiationAnimalsBrain-derived neurotrophic factorBrain-Derived Neurotrophic FactorCell Biologymedicine.diseaseCorpus StriatumTransplantationDisease Models Animal030104 developmental biologylcsh:Biology (General)chemistrynervous systembiology.proteinNeuroscience030217 neurology & neurosurgeryBiomarkersDevelopmental BiologyQuinolinic acidStem Cell TransplantationStem Cell Reports
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Transcriptional and Epigenetic Control of Astrogliogenesis

2017

Abstract Astrocytes exert pivotal functions in the brain ranging from homeostasis to plasticity and their malfunctioning may contribute to neurodegenerative diseases. With increased recognition of their importance, more efforts are being dedicated to decoding the molecular mechanisms that control the generation of astrocytes from neural stem cells, a process referred to as astrogliogenesis. In this chapter, we highlight the discoveries that have shed light on the role of transcription factors, DNA methylation, histone modifications, and microRNAs in driving the transcriptional programs that underlie astrocyte generation. We further discuss the current understanding of gene regulatory pathwa…

0301 basic medicineGeneticsNeurogenesisBiologyNeural stem cell03 medical and health sciences030104 developmental biology0302 clinical medicineHistonemedicine.anatomical_structureDNA methylationmicroRNAbiology.proteinmedicineEpigeneticsNeuroscienceTranscription factor030217 neurology & neurosurgeryAstrocyte
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RINT1 Loss Impairs Retinogenesis Through TRP53-Mediated Apoptosis

2020

Genomic instability in the central nervous system (CNS) is associated with defective neurodevelopment and neurodegeneration. Congenital human syndromes that affect the CNS development originate from mutations in genes of the DNA damage response (DDR) pathways. RINT1 (Rad50-interacting protein 1) is a partner of RAD50, that participates in the cellular responses to DNA double-strand breaks (DSB). Recently, we showed that Rint1 regulates cell survival in the developing brain and its loss led to premature lethality associated with genomic stability. To bypass the lethality of Rint1 inactivation in the embryonic brain and better understand the roles of RINT1 in CNS development, we conditionally…

0301 basic medicineGenome instabilityDNA damagereplicative stressBiologyDNA damage responseRetinal ganglionganglion cellsCell and Developmental Biology03 medical and health sciences0302 clinical medicinemedicineoptic nerve hypoplasiaProgenitor celllcsh:QH301-705.5Original ResearchNeurogenesisNeurodegenerationneurodegenerationCell BiologyCell cyclemedicine.diseaseNeural stem cellCell biologyneurogenesis030104 developmental biologylcsh:Biology (General)030220 oncology & carcinogenesisvisual system developmentDevelopmental BiologyFrontiers in Cell and Developmental Biology
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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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MicroRNA-22 Controls Aberrant Neurogenesis and Changes in Neuronal Morphology After Status Epilepticus

2018

Prolonged seizures (status epilepticus, SE) may drive hippocampal dysfunction and epileptogenesis, at least partly, through an elevation in neurogenesis, dysregulation of migration and aberrant dendritic arborization of newly-formed neurons. MicroRNA-22 was recently found to protect against the development of epileptic foci, but the mechanisms remain incompletely understood. Here, we investigated the contribution of microRNA-22 to SE-induced aberrant adult neurogenesis. SE was induced by intraamygdala microinjection of kainic acid (KA) to model unilateral hippocampal neuropathology in mice. MicroRNA-22 expression was suppressed using specific oligonucleotide inhibitors (antagomir-22) and ne…

0301 basic medicineKainic acidDendritic spineMicroRNA-22NeurogenesisStatus epilepticusBiologyHippocampal formationEpileptogenesislcsh:RC321-571Mouse model03 medical and health sciencesCellular and Molecular Neurosciencechemistry.chemical_compound0302 clinical medicinemedicinelcsh:Neurosciences. Biological psychiatry. NeuropsychiatryStatus epilepticusMolecular BiologyOriginal ResearchEpilepsyDentate gyrusNeurogenesisBiología y Biomedicina / BiologíaGranule cell3. Good health030104 developmental biologymedicine.anatomical_structurenervous systemchemistrymedicine.symptomNeuroscience030217 neurology & neurosurgeryNeuroscienceFrontiers in Molecular Neuroscience
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Development of the GABAergic and glutamatergic neurons of the lateral hypothalamus.

2021

In the last few years we assist to an unexpected deluge of genomic data on hypothalamic development and structure. Perhaps most surprisingly, the Lateral Zone has received much attention too. The new information focuses first of all on transcriptional heterogeneity. Many already known and a number of hitherto unknown lateral hypothalamic neurons have been described to an enormous degree of detail. Maybe the most surprising novel discoveries are two: First, some restricted regions of the embryonic forebrain neuroepithelium generate specific LHA neurons, either GABAergic or glutamatergic. Second, evidence is mounting that supports the existence of numerous kinds of "bilingual" lateral hypotha…

0301 basic medicineLateral hypothalamusNeurogenesisGlutamate receptorNeuropeptideGlutamic AcidBiologyNeuroepithelial cell03 medical and health sciencesCellular and Molecular NeuroscienceElectrophysiologyGlutamatergic030104 developmental biology0302 clinical medicineHypothalamusHypothalamic Area LateralGABAergicAnimalsHumansGABAergic NeuronsNeuroscience030217 neurology & neurosurgeryTranscription FactorsJournal of chemical neuroanatomy
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NEGR1 and FGFR2 cooperatively regulate cortical development and core behaviours related to autism disorders in mice.

2018

See Contreras and Hippenmeyer (doi:10.1093/brain/awy218) for a scientific commentary on this article. Autism spectrum disorders (ASDs) are complex conditions with diverse aetiologies. Szczurkowska et al. demonstrate that two ASD-related molecules – FGFR2 and Negr1 – physically interact to act on the same downstream pathway, and regulate cortical development and ASD-relevant behaviours in mice. Identifying common mechanisms in ASDs may reveal targets for pharmacological intervention.

0301 basic medicineMAPK/ERK pathwaygenetic structuresAutism Spectrum DisorderFGFR2 signalingFibroblast growth factorReceptor tyrosine kinaseMiceautism; development; cell adhesion; in utero electroporation; FGFR2 signaling0302 clinical medicineCell MovementCerebral CortexMice KnockoutbiologyBehavior AnimalKinaseCell adhesion moleculeCell biologyProtein TransportSignal Transductionmusculoskeletal diseasesMAP Kinase Signaling SystemCell Adhesion Molecules NeuronalDendritic SpinesNeurogenesisautismDown-Regulationbehavioral disciplines and activities03 medical and health sciencesmental disordersmedicineAnimalsHumansAutistic DisorderReceptor Fibroblast Growth Factor Type 2developmentProtein kinase BFibroblast growth factor receptor 2Cell Membranecell adhesionOriginal Articlesin utero electroporationmedicine.diseaseMice Inbred C57BLDisease Models Animal030104 developmental biologyHEK293 Cellsbiology.proteinAutismNeurology (clinical)030217 neurology & neurosurgeryBrain : a journal of neurology
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Oleoylethanolamide restores alcohol-induced inhibition of neuronal proliferation and microglial activity in striatum

2019

Previous findings demonstrate a homeostatic role for oleoylethanolamide (OEA) signaling in the ethanol-related neuroinflammation and behavior. However, extensive research is still required in order to unveil the effects of OEA on a number of neurobiological functions such as adult neurogenesis, cell survival and resident neuroimmunity that become notably altered by alcohol. Daily consumption of ethanol (10%) for 2 weeks (6.3& #x202F;± 1.1 g/kg/day during last 5 days) caused hypolocomotor activity in rats. This effect appears to rely on central signaling mechanisms given that alcohol increased the OEA levels, the gene expression of OEA-synthesizing enzyme Nape-pld and the number of PPARα-imm…

0301 basic medicineMaleApoptosisOleic AcidsStriatumPPARαOleoylethanolamidechemistry.chemical_compound0302 clinical medicineNeuronseducation.field_of_studyCaspase 3NeurogenesisMicrofilament ProteinsAlanine Transaminasegamma-GlutamyltransferaseHepatobiliary EliminationEthanolaminesMicrogliaAlcoholProto-Oncogene Proteins c-fosLocomotionFOSBSignal Transductionmedicine.medical_specialtyAlcohol DrinkingCell SurvivalPolyunsaturated AlkamidesNeurogenesisPopulationCaspase 3Arachidonic AcidsStriatumAmidohydrolases03 medical and health sciencesCellular and Molecular NeuroscienceInternal medicineGlial Fibrillary Acidic ProteinmedicinePhospholipase DAnimalsPPAR alphaAspartate AminotransferasesProgenitor cellRats WistareducationNeuroinflammationCell ProliferationPharmacologyEthanolCalcium-Binding ProteinsRatsNeostriatum030104 developmental biologyEndocrinologychemistry030217 neurology & neurosurgeryEndocannabinoids
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Restricted vs. unrestricted wheel running in mice: Effects on brain, behavior and endocannabinoids.

2016

Beneficial effects of voluntary wheel running on hippocampal neurogenesis, morphology and hippocampal-dependent behavior have widely been studied in rodents, but also serious side effects and similarities to stereotypy have been reported. Some mouse strains run excessively when equipped with running wheels, complicating the comparability to human exercise regimes. Here, we investigated how exercise restriction to 6h/day affects hippocampal morphology and metabolism, stereotypic and basal behaviors, as well as the endocannabinoid system in wheel running C57BL/6 mice; the strain most commonly used for behavioral analyses and psychiatric disease models. Restricted and unrestricted wheel runnin…

0301 basic medicineMaleBrain behaviorNeurogenesisHippocampal formationMotor ActivityHippocampusRunning03 medical and health sciencesBehavioral NeuroscienceMice0302 clinical medicineEndocrinologyPhysical Conditioning AnimalAerobic exerciseAnimalsHumansBehavior AnimalEndocrine and Autonomic SystemsNeurogenesisGlutamate receptorBrainEndocannabinoid systemMice Inbred C57BLStereotypy (non-human)030104 developmental biologyWheel runningStereotyped BehaviorPsychologyhuman activitiesNeuroscience030217 neurology & neurosurgeryEndocannabinoidsHormones and behavior
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Functional hypoxia drives neuroplasticity and neurogenesis via brain erythropoietin.

2020

Erythropoietin (EPO), named after its role in hematopoiesis, is also expressed in mammalian brain. In clinical settings, recombinant EPO treatment has revealed a remarkable improvement of cognition, but underlying mechanisms have remained obscure. Here, we show with a novel line of reporter mice that cognitive challenge induces local/endogenous hypoxia in hippocampal pyramidal neurons, hence enhancing expression of EPO and EPO receptor (EPOR). High-dose EPO administration, amplifying auto/paracrine EPO/EPOR signaling, prompts the emergence of new CA1 neurons and enhanced dendritic spine densities. Single-cell sequencing reveals rapid increase in newly differentiating neurons. Importantly, i…

0301 basic medicineMaleDendritic spineGeneral Physics and AstronomyHippocampal formationVARIANTSADULT NEUROGENESIS0302 clinical medicineCognitionhemic and lymphatic diseasesReceptors ErythropoietinHypoxialcsh:ScienceNEURONSMultidisciplinaryNeuronal PlasticityPyramidal CellsNeurogenesisQBrainCell DifferentiationHEMATOPOIETIC PROGENITOR CELLSFemalemedicine.symptomProto-Oncogene Proteins c-fosmedicine.drugEXPRESSIONScienceDendritic SpinesNeurogenesisModels NeurologicalBiologyMotor ActivityGeneral Biochemistry Genetics and Molecular BiologyArticle03 medical and health sciencesParacrine signallingPhysical Conditioning AnimalNeuroplasticitymedicineAnimalsHumansErythropoietinMEMORYCognitive neuroscienceGeneral ChemistryHypoxia (medical)RECOMBINANT-HUMAN-ERYTHROPOIETINCellular neuroscienceErythropoietin receptorMice Inbred C57BLMICE030104 developmental biologyErythropoietinPhysical EnduranceIDENTITYlcsh:QTranscriptomeNeuroscience030217 neurology & neurosurgeryGene Deletion
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