Search results for "Apse"

showing 10 items of 1903 documents

AAV vector-mediated overexpression of CB1 cannabinoid receptor in pyramidal neurons of the hippocampus protects against seizure-induced excitoxicity.

2010

The CB1 cannabinoid receptor is the most abundant G-protein coupled receptor in the brain and a key regulator of neuronal excitability. There is strong evidence that CB1 receptor on glutamatergic hippocampal neurons is beneficial to alleviate epileptiform seizures in mouse and man. Therefore, we hypothesized that experimentally increased CB1 gene dosage in principal neurons would have therapeutic effects in kainic acid (KA)-induced hippocampal pathogenesis. Here, we show that virus-mediated conditional overexpression of CB1 receptor in pyramidal and mossy cells of the hippocampus is neuroprotective and moderates convulsions in the acute KA seizure model in mice. We introduce a recombinant a…

Central Nervous SystemCannabinoid receptormedicine.medical_treatmentHippocampuslcsh:MedicineHippocampal formationHippocampuschemistry.chemical_compoundMiceReceptor Cannabinoid CB1Neurobiology of Disease and RegenerationTransgeneslcsh:ScienceNeuronsRecombination GeneticMultidisciplinaryBehavior AnimalNeuromodulationmusculoskeletal neural and ocular physiologyfood and beveragesNeurochemistryGenomicsGene TherapyDependovirusEndocannabinoid systemCell biologyFunctional GenomicsNeurologyHomeostatic MechanismsMedicinelipids (amino acids peptides and proteins)Viral VectorsNeurochemicalsGenetic EngineeringResearch ArticleBiotechnologyKainic acidGenetic VectorsGreen Fluorescent ProteinsNeurophysiologyBiologyMicrobiologyVector BiologyGlutamatergicGenomic MedicineSeizuresmedicineGeneticsAnimalsBiologyEpilepsyIntegrasesDentate gyruslcsh:RMolecular biologyMice Inbred C57BLchemistryGene Expression Regulationnervous systemGenetics of DiseaseSynapseslcsh:QCannabinoidGene FunctionMolecular NeuroscienceAnimal GeneticsTransgenicsNeuroscienceEndocannabinoidsPLoS ONE
researchProduct

NG2-positive cells in CNS function and the pathological role of antibodies against NG2 in demyelinating diseases

2005

NG2 is expressed by a variety of immature glia in the CNS including oligodendrocyte progenitor cells, paranodal astrocytes and perisynaptic glia. The protein has a large extracellular domain with two LNS/Lam G domains at the N-terminus and a short intracellular tail with a PDZ-recognition domain at the C-terminus. Experiments suggest that the protein plays a role in migration. The PDZ protein GRIP was identified as an intracellular binding partner of NG2 in immature glial cells. A complex is formed between GRIP, NG2 and the AMPA class of glutamate receptors: this may position these glial receptors towards sites of neuronal glutamate release at synapses and during myelination. Identification…

Central Nervous SystemCentral nervous systemPDZ domainGlutamate receptorAMPA receptorBiologyModels BiologicalAntibodiesOligodendrocytemedicine.anatomical_structurenervous systemNeurologySynapsesmedicineAnimalsHumansNeurogliaProteoglycansNeurology (clinical)AntigensRemyelinationReceptorNeurogliaNeuroscienceDemyelinating DiseasesJournal of the Neurological Sciences
researchProduct

Compartmentalization of Central Neurons inDrosophila: A New Strategy of Mosaic Analysis Reveals Localization of Presynaptic Sites to Specific Segment…

2002

Synaptogenesis in the CNS has received far less attention than the development of neuromuscular synapses, although only central synapses allow the study of neuronal postsynaptic mechanisms and display a greater variety of structural and functional features. This neglect is attributable mainly to the enormous complexity of the CNS, which makes the visualization of individual synapses on defined neuronal processes very difficult. We overcome this obstacle and demonstrate by confocal microscopy the specific arrangement of output synapses on individual neurites. These studies are performed via genetic mosaic strategies in the CNS of the fruitfly Drosophila melanogaster. First, we use targeted e…

Central Nervous SystemEmbryo NonmammalianNeuropilNeuriteCell TransplantationTransport pathwaysPresynaptic TerminalsSynaptogenesisGene ExpressionNerve Tissue ProteinsBiologylaw.inventionGenes ReporterInterneuronsConfocal microscopylawPostsynaptic potentialNeuritesAnimalsCell LineageARTICLENeuronsTransplantation ChimeraMosaicismGeneral NeuroscienceGene targetingbiology.organism_classificationCell CompartmentationTransplantationDrosophila melanogasterGene TargetingMutationSynapsesDrosophila melanogasterNeuroscienceThe Journal of Neuroscience
researchProduct

Charting the Drosophila neuropile: a strategy for the standardised characterisation of genetically amenable neurites

2003

Insect neurons are individually identifiable and have been used successfully to study principles of the formation and function of neuronal circuits. In the fruitfly Drosophila, studies on identifiable neurons can be combined with efficient genetic approaches. However, to capitalise on this potential for studies of circuit formation in the CNS of Drosophila embryos or larvae, we need to identify pre- and postsynaptic elements of such circuits and describe the neuropilar territories they occupy. Here, we present a strategy for neurite mapping, using a set of evenly distributed landmarks labelled by commercially available anti-Fasciclin2 antibodies which remain comparatively constant between s…

Central Nervous SystemEmbryo NonmammalianNeuropilTime FactorsNeuritePeriod (gene)CD8 AntigensModels BiologicalSynapseNeurons EfferentPostsynaptic potentialNeuritesAnimalsDrosophila ProteinsDrosophilaMolecular BiologybiologyfungiNeurogenesisGene Expression Regulation DevelopmentalAnatomyCell Biologybiology.organism_classificationNeuronal circuitsLarvaGene TargetingDrosophilaNeuroscienceDevelopmental BiologyDevelopmental Biology
researchProduct

Polysialic acid is required for dopamine D2 receptor-mediated plasticity involving inhibitory circuits of the rat medial prefrontal cortex.

2011

Decreased expression of dopamine D2 receptors (D2R), dysfunction of inhibitory neurotransmission and impairments in the structure and connectivity of neurons in the medial prefrontal cortex (mPFC) are involved in the pathogenesis of schizophrenia and major depression, but the relationship between these changes remains unclear. The polysialylated form of the neural cell adhesion molecule (PSA-NCAM), a plasticity-related molecule, may serve as a link. This molecule is expressed in cortical interneurons and dopamine, via D2R, modulates its expression in parallel to that of proteins related to synapses and inhibitory neurotransmission, suggesting that D2R-targeted antipsychotics/antidepressants…

Central Nervous SystemMaleAnatomy and Physiologylcsh:MedicineRats Sprague-DawleyNeural PathwaysMolecular Cell BiologyNeurobiology of Disease and Regenerationlcsh:SciencePsychiatryMicroscopy ConfocalNeuronal PlasticityMultidisciplinaryNeuronal MorphologybiologyGlutamate Decarboxylasemusculoskeletal neural and ocular physiologyNeurotransmittersAnatomyImmunohistochemistryMental Healthmedicine.anatomical_structureNeurologyDopamine AgonistsMedicineNcamResearch Articlemedicine.drugNeural NetworksInterneuronSynaptophysinNeurophysiologyPrefrontal CortexNeuropsychiatric DisordersNeural Cell Adhesion Molecule L1NeurotransmissionNeurological SystemNeuropharmacologyDopamineDopamine receptor D2NeuroplasticityCell AdhesionNeuropilmedicineAnimalsBiologyMood DisordersReceptors Dopamine D2lcsh:RRatsNeuroanatomynervous systemCellular NeuroscienceSynapsesSchizophreniaSialic Acidsbiology.proteinNeural cell adhesion moleculelcsh:QNeuroscienceParvalbuminNeurosciencePLoS ONE
researchProduct

A glial amino-acid transporter controls synapse strength and courtship in Drosophila

2008

1097-6256 (Print) Journal Article Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't; Mate choice is an evolutionarily critical decision that requires the detection of multiple sex-specific signals followed by central integration of these signals to direct appropriate behavior. The mechanisms controlling mate choice remain poorly understood. Here, we show that the glial amino-acid transporter genderblind controls whether Drosophila melanogaster males will attempt to mate with other males. Genderblind (gb) mutant males showed no alteration in heterosexual courtship or copulation, but were attracted to normally unappealing male species-specific chemosensory cues. As a resul…

Central Nervous SystemMaleNervous systemAmino Acid Transport System y+media_common.quotation_subjectNeuroscience(all)Glutamic AcidArticleAnimals Genetically ModifiedCourtshipSynapseGlutamatergicmedicineAnimalsDrosophila ProteinsRNA Small Interferingmedia_commonBehavior AnimalbiologyGeneral NeuroscienceCourtshipHomosexualitybiology.organism_classificationmedicine.anatomical_structureMate choiceMutationSynapsesGenderblindDrosophilaFemaleGlutamatergic synapseDrosophila melanogaster/dk/atira/pure/subjectarea/asjc/2800NeurogliaNeuroscience
researchProduct

Serotonin Involvement in the Basal Ganglia Pathophysiology: Could the 5-HT2C Receptor be a New Target for Therapeutic Strategies?.

2006

The basal ganglia are a highly interconnected group of subcortical nuclei in the vertebrate brain that play a critical role not only in the control of movements but also in some cognitive and behavioral functions. Several recent studies have emphasized that serotonergic pathways in the central nervous system (CNS) are intimately involved in the modulation of the basal ganglia and in the pathophysiology of human involuntary movement disorders. These observations are supported by anatomical evidence demonstrating large serotonergic innervation of the basal ganglia. In fact, serotonergic terminals have been reported to make synaptic contacts with dopamine (DA)-containing neurons and gamma-amin…

Central Nervous SystemSerotoninmedicine.medical_specialtySubstantia nigraBiologyIndirect pathway of movementSerotonergicBiochemistrySerotonin AgentsBasal Ganglia DiseasesDopamineInternal medicineSerotonin AgentsDrug DiscoveryBasal gangliaReceptor Serotonin 5-HT2CmedicineAnimalsHumansBasal ganglia diseasegamma-Aminobutyric AcidNeuronsPharmacologyMovement DisordersOrganic ChemistryParkinson Diseasemedicine.diseasebasal ganglion pathophysiology Basal Ganglia Diseases pathophysiologyGlobus pallidusEndocrinologynervous systemSynapsesMolecular Medicinemedicine.drug
researchProduct

Agrin in the Developing CNS: New Roles for a Synapse Organizer

2002

The heparan sulfate proteoglycan agrin is responsible for the formation, maintenance, and regeneration of the neuromuscular junction. In the central nervous system, agrin is widely expressed and concentrated at interneuronal synapses, but its function during synaptogenesis remains controversial. Instead, evidence for additional functions of agrin during axonal growth, establishment of the blood-brain barrier, and Alzheimer’s disease is accumulating.

Central Nervous Systemmedicine.medical_specialtyanimal structuresAgrinPhysiologyRegeneration (biology)Central nervous systemSynaptogenesisBiologyHeparan Sulfate ProteoglycansNeuromuscular junctionSynapsemedicine.anatomical_structureEndocrinologynervous systemAlzheimer DiseaseInternal medicineSynapsesmedicineAnimalsHumansAgrinNeurosciencePhysiology
researchProduct

A novel cholinergic-specific antigen (Chol-2) in mammalian brain.

1993

Three new antisera have been raised in sheep against cholinergic electromotor presynaptic plasma membranes prepared from the electric organs of the electric ray, Torpedo marmorata. They all recognized one or more cholinergic-specific antigens in the mammalian nervous system by the following criteria: they sensitized the cholinergic subpopulation of rat-brain synaptosomes--and only this subpopulation--to lysis by the complement system and, in an immunocytochemical study, selectively stained choline acetyltransferase-positive cholinergic neurons in the rat spinal cord. However, two of the three antisera failed to recognize Chol-1 alpha and -beta, two closely related minor gangliosides already…

Central nervous systemBiologyTorpedoEpitopeAntigenParasympathetic Nervous SystemGangliosidesmedicineAnimalsCholinergic neuronAntigensMolecular BiologyAntiserumElectric OrganGangliosideSheepGeneral NeuroscienceImmune SeraCell MembraneBrainComplement System ProteinsImmunohistochemistryCell biologyComplement systemRatsmedicine.anatomical_structureImmunologyAntigens SurfaceSynapsesCholinergicNeurology (clinical)Developmental BiologySubcellular FractionsBrain research
researchProduct

Long-term stability of surgical-orthodontic correction of class III malocclusions with long-face syndrome

2011

Objectives: In the first place, to evaluate skeletal changes of the maxilla and mandible induced by surgical-orthodontic correction of malocclusions class III with long-face syndrome and secondly, to analyze the stability of these skeletal changes in the long term (more than 6 years). Design of Study: A retrospective, unicentric and longitudinal study of 19 patients who had undergone surgical and orthodontic therapy for class III skeletal malocclusion with long-face syndrome was undertaken. A cephalometric analysis based on 8 angle measurements, and statistical analyses at three different points in time (before orthodontic treatment, after orthognathic surgery and after a retention period o…

Cephalometric analysisAdultMaleLongitudinal studyClass IIITime FactorsAdolescentCephalometrymedicine.medical_treatmentOrthognathic surgeryDentistryOrthodontics CorrectiveYoung Adultstomatognathic systemmedicineHumansLongitudinal StudiesRelapseGeneral DentistryOrthognathic surgeryRetrospective StudiesOrthodonticsLong face syndromebusiness.industryMandibleSyndromemedicine.disease:CIENCIAS MÉDICAS [UNESCO]Malocclusion Angle Class IIILong faceOtorhinolaryngologyJawMaxillaCephalometryFaceUNESCO::CIENCIAS MÉDICASSurgeryFemaleResearch-ArticleMalocclusionmedicine.symptomOral SurgerybusinessStabilityFollow-Up StudiesLong term results
researchProduct