Search results for "genetics [Transcriptome]"

showing 10 items of 3033 documents

Multifaceted effects of oligodendroglial exosomes on neurons: impact on neuronal firing rate, signal transduction and gene regulation.

2014

Exosomes are small membranous vesicles of endocytic origin that are released by almost every cell type. They exert versatile functions in intercellular communication important for many physiological and pathological processes. Recently, exosomes attracted interest with regard to their role in cell–cell communication in the nervous system. We have shown that exosomes released from oligodendrocytes upon stimulation with the neurotransmitter glutamate are internalized by neurons and enhance the neuronal stress tolerance. Here, we demonstrate that oligodendroglial exosomes also promote neuronal survival during oxygen–glucose deprivation, a model of cerebral ischaemia. We show the transfer from…

Cell typeCell signalingEndocytic cycleBlotting WesternAction PotentialsCell CommunicationNeurotransmissionBiologyExosomesReal-Time Polymerase Chain ReactionExosomeSynaptic TransmissionGeneral Biochemistry Genetics and Molecular BiologyMiceAnimalsPhosphorylationCells CulturedNeuronsSuperoxide DismutaseGlutamate receptorCatalaseMicroarray AnalysisPart III: Intercellular communication—basic insightImmunohistochemistryMicrovesiclesCell HypoxiaCell biologyMice Inbred C57BLOligodendrogliaGlucoseGene Expression RegulationSignal transductionGeneral Agricultural and Biological SciencesSignal TransductionPhilosophical transactions of the Royal Society of London. Series B, Biological sciences
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MicroRNAs: Promising New Antiangiogenic Targets in Cancer

2014

[EN] MicroRNAs are one class of small, endogenous, non-coding RNAs that are approximately 22 nucleotides in length; they are very numerous, have been phylogenetically conserved, and involved in biological processes such as development, differentiation, cell proliferation, and apoptosis. MicroRNAs contribute to modulating the expression levels of specific proteins based on sequence complementarity with their target mRNA molecules and so they play a key role in both health and disease. Angiogenesis is the process of new blood vessel formation from preexisting ones, which is particularly relevant to cancer and its progression. Over the last few years, microRNAs have emerged as critical regulat…

Cell typeDOWN-REGULATIONArticle SubjectAngiogenesisHUMAN BREAST-CANCERMIR-200 FAMILYlcsh:MedicineAngiogenesis InhibitorsReview ArticleBiologyBioinformaticsGeneral Biochemistry Genetics and Molecular BiologyNUCLEAR EXPORTTUMOR ANGIOGENESISNeovascularizationMicroprocessor complexSMALL RNASDownregulation and upregulationNeoplasmsmicroRNAGene expressionmedicineAnimalsHumansMolecular Targeted TherapyPrecision MedicineIN-VIVOGENE-EXPRESSIONGeneral Immunology and MicrobiologyNeovascularization PathologicCell growthlcsh:RMICROBIOLOGIAGeneral MedicineMICROPROCESSOR COMPLEXMicroRNAsENDOTHELIAL GROWTH-FACTORCancer researchmedicine.symptom
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Double In Utero Electroporation to Target Temporally and Spatially Separated Cell Populations.

2020

In utero electroporation is an in vivo DNA transfer technique extensively used to study the molecular and cellular mechanisms underlying mammalian corticogenesis. This procedure takes advantage of the brain ventricles to allow the introduction of DNA of interest and uses a pair of electrodes to direct the entrance of the genetic material into the cells lining the ventricle, the neural stem cells. This method allows researchers to label the desired cells and/or manipulate the expression of genes of interest in those cells. It has multiple applications, including assays targeting neuronal migration, lineage tracing, and axonal pathfinding. An important feature of this method is its temporal a…

Cell typeGeneral Chemical EngineeringNeurogenesisCellGreen Fluorescent ProteinsBiologyGeneral Biochemistry Genetics and Molecular BiologyMiceSpatio-Temporal AnalysisNeural Stem CellsPregnancymedicineAnimalsRegulation of gene expressionGeneral Immunology and MicrobiologyGeneral NeuroscienceElectroporationNeurogenesisBrainGene Expression Regulation DevelopmentalDNAEmbryo MammalianEmbryonic stem cellNeural stem cellMice Inbred C57BLCorticogenesismedicine.anatomical_structureElectroporationFemaleNeurosciencePlasmidsJournal of visualized experiments : JoVE
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Definition ofDrosophilahemocyte subsets by cell-type specific antigens

2008

We analyzed the heterogeneity of Drosophila hemocytes on the basis of the expression of cell-type specific antigens. The antigens characterize distinct subsets which partially overlap with those defined by morphological criteria. On the basis of the expression or the lack of expression of blood cell antigens the following hemocyte populations have been defined: crystal cells, plasmatocytes, lamellocytes and precursor cells. The expression of the antigens and thus the different cell types are developmentally regulated. The hemocytes are arranged in four main compartments: the circulating blood cells, the sessile tissue, the lymph glands and the posterior hematopoietic tissue. Each hemocyte c…

Cell typeHemocytesBlotting WesternBiologyGeneral Biochemistry Genetics and Molecular BiologyFlow cytometryBlood cellMicePhagocytosisAntigenPrecursor cellmedicineAnimalsCompartment (development)AntigensFluorescent Antibody Technique IndirectGeneral Environmental ScienceMice Inbred BALB Cmedicine.diagnostic_testHematopoietic TissueAntibodies MonoclonalLamellocyte differentiationFlow CytometryMolecular biologyCell Compartmentationmedicine.anatomical_structureNeurologyDrosophilaFemaleActa Biologica Hungarica
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Lineage-reprogramming of Pericyte-derived Cells of the Adult Human Brain into Induced Neurons

2014

Direct lineage-reprogramming of non-neuronal cells into induced neurons (iNs) may provide insights into the molecular mechanisms underlying neurogenesis and enable new strategies for in vitro modeling or repairing the diseased brain. Identifying brain-resident non-neuronal cell types amenable to direct conversion into iNs might allow for launching such an approach in situ, i.e. within the damaged brain tissue. Here we describe a protocol developed in the attempt of identifying cells derived from the adult human brain that fulfill this premise. This protocol involves: (1) the culturing of human cells from the cerebral cortex obtained from adult human brain biopsies; (2) the in vitro expansio…

Cell typePatch-Clamp TechniquesGeneral Chemical EngineeringCell Culture TechniquesBiologyGeneral Biochemistry Genetics and Molecular BiologySOX2Transduction GeneticmedicineHumansCell LineageCerebral CortexNeuronsGeneral Immunology and MicrobiologyGeneral NeuroscienceSOXB1 Transcription FactorsNeurogenesisHuman brainCell sortingCellular ReprogrammingFlow CytometryImmunohistochemistrymedicine.anatomical_structureRetroviridaeCell culturePericytePericytesNeuroscienceReprogrammingNeuroscience
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Differentiation of Type 1 ILCs from a Common Progenitor to All Helper-like Innate Lymphoid Cell Lineages

2014

SummaryInnate lymphoid cells (ILCs) are a recently recognized group of lymphocytes that have important functions in protecting epithelial barriers against infections and in maintaining organ homeostasis. ILCs have been categorized into three distinct groups, transcriptional circuitry and effector functions of which strikingly resemble the various T helper cell subsets. Here, we identify a common, Id2-expressing progenitor to all interleukin 7 receptor-expressing, “helper-like” ILC lineages, the CHILP. Interestingly, the CHILP differentiated into ILC2 and ILC3 lineages, but not into conventional natural killer (cNK) cells that have been considered an ILC1 subset. Instead, the CHILP gave rise…

Cellular differentiationLineage (evolution)Bone Marrow CellsGATA3 Transcription FactorBiologyGeneral Biochemistry Genetics and Molecular BiologyMicemedicineAnimalsLymphocytesskin and connective tissue diseasesProgenitorInhibitor of Differentiation Protein 2Receptors Interleukin-7Biochemistry Genetics and Molecular Biology(all)Intracellular parasiteStem CellsInnate lymphoid cellNFIL3Cell DifferentiationT helper cellImmunity InnateMice Inbred C57BLbody regionsmedicine.anatomical_structureImmunologyToxoplasmaIntracellularToxoplasmosisCell
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AIDS and the Central Nervous System: Examining Pathobiology and Testing Therapeutic Strategies in the SIV-Infected Rhesus Monkey

1993

Central Nervous SystemAcquired Immunodeficiency Syndromebusiness.industryGeneral NeuroscienceCentral nervous systemSimian Acquired Immunodeficiency Syndromemedicine.diseaseMacaca mulattaGeneral Biochemistry Genetics and Molecular Biologymedicine.anatomical_structureAnimals NewbornHistory and Philosophy of ScienceAcquired immunodeficiency syndrome (AIDS)ImmunologyAnimalsHumansMedicinebusinessZidovudineAnnals of the New York Academy of Sciences
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Direct suppression of CNS autoimmune inflammation via the cannabinoid receptor CB1 on neurons and CB2 on autoreactive T cells.

2007

The cannabinoid system is immunomodulatory and has been targeted as a treatment for the central nervous system (CNS) autoimmune disease multiple sclerosis. Using an animal model of multiple sclerosis, experimental autoimmune encephalomyelitis (EAE), we investigated the role of the CB(1) and CB(2) cannabinoid receptors in regulating CNS autoimmunity. We found that CB(1) receptor expression by neurons, but not T cells, was required for cannabinoid-mediated EAE suppression. In contrast, CB(2) receptor expression by encephalitogenic T cells was critical for controlling inflammation associated with EAE. CB(2)-deficient T cells in the CNS during EAE exhibited reduced levels of apoptosis, a higher…

Central Nervous SystemCannabinoid receptorEncephalomyelitis Autoimmune Experimentalmedicine.medical_treatmentEncephalomyelitisT-LymphocytesInflammationApoptosisMice TransgenicBiologyGeneral Biochemistry Genetics and Molecular BiologyReceptor Cannabinoid CB2MiceReceptor Cannabinoid CB1medicineCannabinoid receptor type 2AnimalsCell ProliferationDNA PrimersAutoimmune diseaseNeuronsExperimental autoimmune encephalomyelitisGeneral Medicinemedicine.diseaseEndocannabinoid systemImmunohistochemistryImmunologyEncephalitislipids (amino acids peptides and proteins)Cannabinoidmedicine.symptomNature medicine
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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
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Comm Sorts Robo to Control Axon Guidance at the Drosophila Midline

2002

AbstractAxon growth across the Drosophila midline requires Comm to downregulate Robo, the receptor for the midline repellent Slit. We show here that comm is required in neurons, not in midline cells as previously thought, and that it is expressed specifically and transiently in commissural neurons. Comm acts as a sorting receptor for Robo, diverting it from the synthetic to the late endocytic pathway. A conserved cytoplasmic LPSY motif is required for endosomal sorting of Comm in vitro and for Comm to downregulate Robo and promote midline crossing in vivo. Axon traffic at the CNS midline is thus controlled by the intracellular trafficking of the Robo guidance receptor, which in turn depends…

Central Nervous SystemEmbryo NonmammalianEndosomeGrowth ConesMolecular Sequence DataEndocytic cycleDown-RegulationNerve Tissue ProteinsReceptors Cell SurfaceCell CommunicationEndosomesBiologyModels BiologicalFunctional LateralityGeneral Biochemistry Genetics and Molecular BiologySequence Homology Nucleic AcidEctodermmedicineAnimalsDrosophila ProteinsReceptors ImmunologicAxonTransport VesiclesReceptorSequence Homology Amino AcidBiochemistry Genetics and Molecular Biology(all)Stem CellsCell MembraneGraft SurvivalGene Expression Regulation DevelopmentalMembrane ProteinsCell DifferentiationAnatomyCommissureSlitProtein Structure TertiaryCell biologyProtein TransportDrosophila melanogastermedicine.anatomical_structureCOS CellsRoundaboutAxon guidanceStem Cell TransplantationCell
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