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showing 10 items of 5143 documents

Gray Matter NG2 Cells Display Multiple Ca2+-Signaling Pathways and Highly Motile Processes

2011

NG2 cells, the fourth type of glia in the mammalian CNS, receive synaptic input from neurons. The function of this innervation is unknown yet. Postsynaptic changes in intracellular Ca(2+)-concentration ([Ca(2+)](i)) might be a possible consequence. We employed transgenic mice with fluorescently labeled NG2 cells to address this issue. To identify Ca(2+)-signaling pathways we combined patch-clamp recordings, Ca(2+)-imaging, mRNA-transcript analysis and focal pressure-application of various substances to identified NG2-cells in acute hippocampal slices. We show that activation of voltage-gated Ca(2+)-channels, Ca(2+)-permeable AMPA-receptors, and group I metabotropic glutamate-receptors provo…

Central Nervous SystemAnatomy and PhysiologyVesicular glutamate transporter 1Glycobiologylcsh:MedicineHippocampal formationBiochemistryIon ChannelsTransmembrane Transport ProteinsMice0302 clinical medicinePostsynaptic potentialBiomacromolecule-Ligand Interactionslcsh:ScienceCells CulturedMembrane potential0303 health sciencesMultidisciplinarybiologyReverse Transcriptase Polymerase Chain ReactionDepolarizationNeurochemistryNeurotransmittersCell biologyElectrophysiologymedicine.anatomical_structureNeurologyNeurogliaMedicineProteoglycansNeurochemicalsGlutamateNeurogliaResearch ArticleNervous System PhysiologySignal TransductionCell PhysiologyMotilityNeuroimagingMice TransgenicNeurological System03 medical and health sciencesNeuropharmacologymedicineAnimalsHumansddc:610Biology030304 developmental biologyEndoplasmic reticulumlcsh:RProteinsGamma-Aminobutyric AcidTransmembrane ProteinsLuminescent ProteinsMicroscopy Electronnervous systemMicroscopy FluorescenceSynapsesVesicular Glutamate Transport Protein 1biology.proteinNervous System Componentslcsh:QCalciumPhysiological Processes030217 neurology & neurosurgeryNeurosciencePLoS ONE
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IkappaB kinase 2 determines oligodendrocyte loss by non-cell-autonomous activation of NF-kappaB in the central nervous system

2011

The IκB kinase complex induces nuclear factor kappa B activation and has recently been recognized as a key player of autoimmunity in the central nervous system. Notably, IκB kinase/nuclear factor kappa B signalling regulates peripheral myelin formation by Schwann cells, however, its role in myelin formation in the central nervous system during health and disease is largely unknown. Surprisingly, we found that brain-specific IκB kinase 2 expression is dispensable for proper myelin assembly and repair in the central nervous system, but instead plays a fundamental role for the loss of myelin in the cuprizone model. During toxic demyelination, inhibition of nuclear factor kappa B activation by …

Central Nervous SystemBlotting WesternIκB kinaseBiologyddc:616.07Myelin assemblyMicroglia/cytology/metabolismNerve Regeneration/physiologyDemyelinating Diseases/chemically induced/metabolism03 medical and health sciencesMyelinCuprizoneMice0302 clinical medicineCentral Nervous System/cytology/metabolismmedicineAnimalsRemyelinationCHUKMyelin Sheath030304 developmental biologyAstrocytes/cytology/metabolismMyelin Sheath/metabolism0303 health sciencesReverse Transcriptase Polymerase Chain ReactionSignal Transduction/physiologyI-Kappa-B KinaseNF-kappa BI-kappa B Kinase/metabolismOriginal ArticlesOligodendrocyte3. Good healthCell biologyI-kappa B KinaseNerve RegenerationOligodendrogliamedicine.anatomical_structureOligodendroglia/metabolismAstrocytesNF-kappa B/metabolismNeurogliaNeurology (clinical)MicrogliaNeuroscience030217 neurology & neurosurgeryDemyelinating DiseasesSignal Transduction
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A critical role for Cyclin E in cell fate determination in the central nervous system of Drosophila melanogaster

2004

We have examined the process by which cell diversity is generated in neuroblast (NB) lineages in the central nervous system of Drosophila melanogaster. Thoracic NB6-4 (NB6-4t) generates both neurons and glial cells, whereas NB6-4a generates only glial cells in abdominal segments. This is attributed to an asymmetric first division of NB6-4t, localizing prospero (pros) and glial cell missing (gcm) only to the glial precursor cell, and a symmetric division of NB6-4a, where both daughter cells express pros and gcm. Here we show that the NB6-4t lineage represents the ground state, which does not require the input of any homeotic gene, whereas the NB6-4a lineage is specified by the homeotic genes…

Central Nervous SystemCyclin ELineage (genetic)Cell divisionDown-RegulationNerve Tissue ProteinsCell fate determinationNeuroblastCyclin EAnimalsDrosophila ProteinsCell LineageHomeodomain ProteinsNeuronsbiologyStem CellsNeuropeptidesGenes HomeoboxGene Expression Regulation DevelopmentalNuclear ProteinsCell DifferentiationCell BiologyCell cyclebiology.organism_classificationGanglia InvertebrateCell biologyDNA-Binding ProteinsDrosophila melanogasterTrans-ActivatorsDrosophila melanogasterHomeotic geneNeurogliaTranscription FactorsNature Cell Biology
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Analysis of Drosophila salivary gland, epidermis and CNS development suggests an additional function of brinker in anterior-posterior cell fate speci…

2000

Salivary glands are simple structured organs which can serve as a model system in the study of organogenesis. Following a large EMS mutagenesis we have identified a number of genes required for normal salivary gland development. Mutations in the locus small salivary glands-1 (ssg-1) lead to a drastic reduction in the size of the salivary glands. The gene ssg-1 was cloned and subsequent sequence and genetic analysis showed identity to the recently published gene brinker. The salivary gland placode in brinker mutants appears reduced along both the anterior-posterior and dorso-ventral axis. Analysis of the brinker cuticle phenotype revealed a similar loss of anterior-posterior as well as later…

Central Nervous SystemEmbryologyReceptors SteroidEmbryo NonmammalianMutantLocus (genetics)OrganogenesisBiologyCell fate determinationSalivary GlandsNeuroblastBacterial ProteinsmedicineAnimalsDrosophila ProteinsAdhesins BacterialGeneBody PatterningEmbryonic InductionHomeodomain ProteinsSalivary glandGenetic Complementation TestNeuropeptidesChromosome MappingGene Expression Regulation DevelopmentalCell DifferentiationAnatomyPhenotypeCell biologyRepressor Proteinsmedicine.anatomical_structureEpidermal CellsMutationInsect ProteinsDrosophilaEpidermisDevelopmental BiologyTranscription FactorsMechanisms of development
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Abdominal-A mediated repression of Cyclin E expression during cell-fate specification in the Drosophila central nervous system

2009

Homeotic/Hox genes are known to specify a given developmental pathway by regulating the expression of downstream effector genes. During embryonic CNS development of Drosophila, the Hox protein Abdominal-A (AbdA) is required for the specification of the abdominal NB6-4 lineage. It does so by down regulating the expression of the cell cycle regulator gene Dcyclin E (CycE). CycE is normally expressed in the thoracic NB6-4 lineage to give rise to mixed lineage of neurons and glia, while only glial cells are produced from the abdominal NB6-4 lineage due to the repression of CycE by AbdA. Here we investigate how AbdA represses the expression of CycE to define the abdominal fate of a single NB6-4 …

Central Nervous SystemEmbryologyTranscription GeneticRegulatorCell fate determinationBiologyAnimals Genetically ModifiedCyclin EAnimalsCell LineageTransgenesEnhancerHox genePsychological repressionIn Situ HybridizationRegulator geneHomeodomain ProteinsNeuronsGene Expression Regulation DevelopmentalCell DifferentiationCell cycleMolecular biologyCell biologyDrosophila melanogasterHomeotic geneNeurogliaDevelopmental BiologyMechanisms of Development
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Impact of Ultrabithorax alternative splicing on Drosophila embryonic nervous system development.

2015

Hox genes control divergent segment identities along the anteroposterior body axis of bilateral animals by regulating a large number of processes in a cell context-specific manner. How Hox proteins achieve this functional diversity is a long-standing question in developmental biology. In this study we investigate the role of alternative splicing in functional specificity of the Drosophila Hox gene Ultrabithorax (Ubx). We focus specifically on the embryonic central nervous system (CNS) and provide a description of temporal expression patterns of three major Ubx isoforms during development of this tissue. These analyses imply distinct functions for individual isoforms in different stages of n…

Central Nervous SystemEmbryologyanimal structuresNeurogenesisGenes InsectBiologyCell fate determinationNeuroblastAnimalsDrosophila ProteinsProtein IsoformsHox geneUltrabithoraxGeneticsHomeodomain ProteinsAlternative splicingGenes HomeoboxGene Expression Regulation DevelopmentalCell biologyAlternative Splicingembryonic structuresRNA splicingDrosophilaNeural developmentDrosophila ProteinDevelopmental BiologyTranscription FactorsMechanisms of development
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Mutations in spalt cause a severe but reversible neurodegenerative phenotype in the embryonic central nervous system ofDrosophila melanogaster

2002

The gene spalt is expressed in the embryonic central nervous system of Drosophila melanogaster but its function in this tissue is still unknown. To investigate this question, we used a combination of techniques to analyse spalt mutant embryos. Electron microscopy showed that in the absence of Spalt, the central nervous system cells are separated by enlarged extracellular spaces populated by membranous material at 60% of embryonic development. Surprisingly, the central nervous system from slightly older embryos (80% of development) exhibited almost wild-type morphology. An extensive survey by laser confocal microscopy revealed that thespalt mutant central nervous system has abnormal levels o…

Central Nervous SystemHeterozygoteTime FactorsFasciclin 2Cellular differentiationCentral nervous systemLigandsCell AdhesionImage Processing Computer-AssistedIn Situ Nick-End LabelingmedicineAnimalsDrosophila ProteinsCell LineageCell adhesionMolecular BiologyCells CulturedCytoskeletonHomeodomain ProteinsNeuronsMicroscopy ConfocalMicroscopy VideobiologyCell adhesion moleculeCell DifferentiationAnatomyCadherinsbiology.organism_classificationImmunohistochemistryPhenotypeCell biologyTransplantationMicroscopy ElectronDrosophila melanogasterPhenotypemedicine.anatomical_structureMutationDrosophila melanogasterTranscription FactorsDevelopmental BiologyDevelopment
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Expression profiling of prospero in the Drosophila larval chemosensory organ: Between growth and outgrowth

2010

AbstractBackgroundThe antenno-maxilary complex (AMC) forms the chemosensory system of theDrosophilalarva and is involved in gustatory and olfactory perception. We have previously shown that a mutant allele of the homeodomain transcription factor Prospero (prosVoila1,V1), presents several developmental defects including abnormal growth and altered taste responses. In addition, many neural tracts connecting the AMC to the central nervous system (CNS) were affected. Our earlier reports on larval AMC did not argue in favour of a role ofprosin cell fate decision, but strongly suggested thatproscould be involved in the control of other aspect of neuronal development. In order to identify these fu…

Central Nervous SystemMESH : Transcription FactorsMESH: DrosophilaOF-FUNCTION SCREEN;MUSCA-DOMESTICA L;HOUSE-FLY LARVA;FINE-STRUCTURE;AXON GUIDANCE;TRANSCRIPTION FACTOR;PATTERN-FORMATION;GENETIC-ANALYSIS;NERVOUS-SYSTEMGenes InsectMESH: Genes InsectAXON GUIDANCEMUSCA-DOMESTICA L0302 clinical medicineMESH: Gene Expression Regulation DevelopmentalCluster AnalysisDrosophila ProteinsMESH: AnimalsTRANSCRIPTION FACTORMESH: Nerve Tissue ProteinsMESH : Nerve Tissue ProteinsOF-FUNCTION SCREENOligonucleotide Array Sequence AnalysisGenetics0303 health sciencesMESH : Central Nervous SystemMicrobiology and ParasitologyMESH : Genes InsectGene Expression Regulation DevelopmentalNuclear ProteinsMESH: Transcription FactorsNull alleleMicrobiologie et ParasitologieMESH : Oligonucleotide Array Sequence Analysis[ SDV.BBM.GTP ] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Larva[SDV.BBM.GTP] Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]DrosophilaDrosophila ProteinResearch ArticleBiotechnologylcsh:QH426-470MESH: Drosophila Proteinslcsh:BiotechnologyNerve Tissue ProteinsBiotechnologiesBiology03 medical and health sciencesMESH: Gene Expression ProfilingGENETIC-ANALYSIS[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]lcsh:TP248.13-248.65GeneticsAnimalsMESH : Cluster AnalysisMESH: Central Nervous SystemAlleleMESH : DrosophilaAlleles030304 developmental biologyMESH : LarvaMicroarray analysis techniquesHOUSE-FLY LARVAGene Expression ProfilingMESH : Gene Expression ProfilingMESH: AllelesWild typeMESH : Nuclear ProteinsProsperobiology.organism_classificationMESH : Drosophila ProteinsMESH: Cluster AnalysisNERVOUS-SYSTEMGene expression profilinglcsh:GeneticsMESH: Oligonucleotide Array Sequence AnalysisHomeoboxMESH : AnimalsMESH : Gene Expression Regulation DevelopmentalMESH : AllelesMESH: Nuclear ProteinsMESH: Larva030217 neurology & neurosurgeryTranscription FactorsPATTERN-FORMATIONFINE-STRUCTURE
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The evolutionary history and tissue mapping of GPR123: specific CNS expression pattern predominantly in thalamic nuclei and regions containing large …

2007

The Adhesion family of G protein-coupled receptors (GPCRs) includes 33 receptors and is the second largest GPCR family. Most of these proteins are still orphans and fairly little is known of their tissue distribution and evolutionary context. We report the evolutionary history of the Adhesion family protein GPR123 as well as mapping of GPR123 mRNA expression in mouse and rat using in situ hybridization and real-time PCR, respectively. GPR123 was found to be well conserved within the vertebrate lineage, especially within the transmembrane regions and in the distal part of the cytoplasmic tail, containing a potential PDZ binding domain. The real-time PCR data indicates that GPR123 is predomin…

Central Nervous SystemMaleModels MolecularNeuronal signal transductionPDZ domainGene ExpressionContext (language use)In situ hybridizationBiologyBiochemistryReceptors G-Protein-CoupledMiceCellular and Molecular NeuroscienceAnimalsHumansTissue DistributionRNA MessengerNeural Cell Adhesion MoleculesIn Situ HybridizationPhylogenyG protein-coupled receptorReverse Transcriptase Polymerase Chain ReactionPyramidal CellsSubiculumRatsCell biologySignal transductionSequence AlignmentNeuroscienceBinding domainJournal of Neurochemistry
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Mating-induced differential peptidomics of neuropeptides and protein hormones in Agrotis ipsilon moths

2018

International audience; In many insects, mating induces drastic changes in male and female responses to sex pheromones or host-plant odors. In the male moth Agrotis ipsilon, mating induces a transient inhibition of behavioral and neuronal responses to the female sex pheromone. As neuropeptides and peptide hormones regulate most behavioral processes, we hypothesize that they could be involved in this mating-dependent olfactory plasticity. Here we used next-generation RNA sequencing and a combination of liquid chromatography, matrix assisted laser desorption ionization time-of-flight (MALDI-TOF) mass spectrometry, and direct tissue profiling to analyze the transcriptome and peptidome of diffe…

Central Nervous SystemMaleProteomics0301 basic medicinePeptide HormonesCentral nervous systemNeuropeptideAgrotis ipsilonOlfactionsex pheromoneMothsPeptide hormoneBiochemistryTranscriptomeSexual Behavior Animal03 medical and health sciencesSex Factors0302 clinical medicinemedicineAnimalsAgrotis ipsilonmothtransciptomeChromatography High Pressure Liquidreproductive and urinary physiologypeptide predictionmass spectrometrybiology[SDV.BA]Life Sciences [q-bio]/Animal biologyneuropeptidesHigh-Throughput Nucleotide SequencingGeneral Chemistrybiology.organism_classificationCell biologymating030104 developmental biologymedicine.anatomical_structureSpectrometry Mass Matrix-Assisted Laser Desorption-IonizationSex pheromoneplasticityPheromoneFemalePeptides030217 neurology & neurosurgeryolfaction
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