Search results for "Nervous System Components"

showing 4 items of 4 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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Aspartoacylase-lacZ knockin mice: an engineered model of Canavan disease.

2011

Canavan Disease (CD) is a recessive leukodystrophy caused by loss of function mutations in the gene encoding aspartoacylase (ASPA), an oligodendrocyte-enriched enzyme that hydrolyses N-acetylaspartate (NAA) to acetate and aspartate. The neurological phenotypes of different rodent models of CD vary considerably. Here we report on a novel targeted aspa mouse mutant expressing the bacterial β-Galactosidase (lacZ) gene under the control of the aspa regulatory elements. X-Gal staining in known ASPA expression domains confirms the integrity of the modified locus in heterozygous aspa lacZ-knockin (aspa(lacZ/+)) mice. In addition, abundant ASPA expression was detected in Schwann cells. Homozygous (…

MaleCentral Nervous SystemCerebellumPathologyAnatomy and PhysiologyCanavan DiseaseMouseMutantlcsh:MedicineNeural HomeostasisBiochemistryMiceNeurobiology of Disease and Regenerationlcsh:ScienceSex CharacteristicsMultidisciplinaryNeuromodulationNeurochemistryGenomicsAnimal ModelsFunctional Genomicsmedicine.anatomical_structureLac OperonNeurologyHomeostatic MechanismsMedicineFemaleNeurochemicalsGenetic EngineeringResearch ArticleNervous System PhysiologyBiotechnologymedicine.medical_specialtyTransgeneCentral nervous systemNeurophysiologyMice TransgenicNeuroimagingBiologyNeurological SystemAmidohydrolasesWhite matterModel OrganismsGeneticsmedicineAnimalsBiologyNeuropeptidesLeukodystrophylcsh:RComputational Biologymedicine.diseaseMolecular biologyCanavan diseaseAspartoacylaseDisease Models AnimalMetabolismnervous systemSmall MoleculesCellular NeuroscienceMetabolic DisordersMutationGenetics of DiseaseNervous System Componentslcsh:QGene FunctionMolecular NeuroscienceAnimal GeneticsNeurosciencePLoS ONE
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Caspase-3 contributes to ZO-1 and Cl-5 tight-junction disruption in rapid anoxic neurovascular unit damage.

2011

BACKGROUND: Tight-junction (TJ) protein degradation is a decisive step in hypoxic blood-brain barrier (BBB) breakdown in stroke. In this study we elucidated the impact of acute cerebral ischemia on TJ protein arrangement and the role of the apoptotic effector protease caspase-3 in this context. METHODOLOGY/PRINCIPAL FINDINGS: We used an in vitro model of the neurovascular unit and the guinea pig whole brain preparation to analyze with immunohistochemical methods the BBB properties and neurovascular integrity. In both methodological approaches we observed rapid TJ protein disruptions after 30 min of oxygen and glucose deprivation or middle cerebral artery occlusion, which were accompanied by…

Time FactorsAnatomy and Physiologylcsh:MedicineMiceMolecular Cell BiologyPathologySignaling in Cellular ProcessesHypoxia Brainlcsh:ScienceCells CulturedNeuropathologyApoptotic SignalingMultidisciplinaryTight junctionCaspase 3ChemistryAnimal ModelsCell biologyTransport proteinProtein Transportmedicine.anatomical_structureNeurologyBlood-Brain BarrierMedicineResearch ArticleSignal TransductionClinical Research DesignCerebrovascular DiseasesGuinea PigsIschemiaContext (language use)Caspase 3Protein degradationBlood–brain barrierNeurological SystemTight JunctionsCapillary PermeabilityModel OrganismsDiagnostic MedicinemedicineAnimalsTransient Ischemic AttacksAnimal Models of DiseaseClaudinBiologyIschemic Strokelcsh:REndothelial CellsMembrane ProteinsPhosphoproteinsmedicine.diseaseAnatomical PathologyClaudinsImmunologyZonula Occludens-1 ProteinNervous System Componentslcsh:QPLoS ONE
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Single administration of tripeptide α-MSH(11-13) attenuates brain damage by reduced inflammation and apoptosis after experimental traumatic brain inj…

2013

Following traumatic brain injury (TBI) neuroinflammatory processes promote neuronal cell loss. Alpha-melanocyte-stimulating hormone (α-MSH) is a neuropeptide with immunomodulatory properties, which may offer neuroprotection. Due to short half-life and pigmentary side-effects of α-MSH, the C-terminal tripeptide α-MSH(11-13) may be an anti-inflammatory alternative. The present study investigated the mRNA concentrations of the precursor hormone proopiomelanocortin (POMC) and of melanocortin receptors 1 and 4 (MC1R/MC4R) in naive mice and 15 min, 6, 12, 24, and 48 h after controlled cortical impact (CCI). Regulation of POMC and MC4R expression did not change after trauma, while MC1R levels incr…

Central Nervous SystemMaleendocrine systemAnatomy and PhysiologyPro-OpiomelanocortinMouseScienceAnti-Inflammatory AgentsGene ExpressionApoptosisNeurological SystemImmunomodulationMiceModel OrganismsNeurorehabilitation and TraumaAnimalsMelanocyte-Stimulating HormonesBiologyCalcium-Binding ProteinsMicrofilament ProteinsQRBrainAnimal ModelsPeptide FragmentsMice Inbred C57BLHead InjuryNeurologyImmune SystemBrain InjuriesNervous System ComponentsCytokinesReceptor Melanocortin Type 4MedicineClinical ImmunologyMicrogliaInflammation MediatorsReceptor Melanocortin Type 1hormones hormone substitutes and hormone antagonistsResearch ArticleNervous System PhysiologyPLoS ONE
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