Search results for "Cell physiology"

showing 7 items of 37 documents

Control of Cell Migration and Inflammatory Mediators Production by CORM-2 in Osteoarthritic Synoviocytes

2011

Background Osteoarthritis (OA) is the most widespread degenerative joint disease. Inflamed synovial cells contribute to the release of inflammatory and catabolic mediators during OA leading to destruction of articular tissues. We have shown previously that CO-releasing molecules exert anti-inflammatory effects in animal models and OA chondrocytes. We have studied the ability of CORM-2 to modify the migration of human OA synoviocytes and the production of chemokines and other mediators sustaining inflammatory and catabolic processes in the OA joint. Methodology/Principal Findings OA synoviocytes were stimulated with interleukin(IL)-1β in the absence or presence of CORM-2. Migration assay was…

MaleChemokineAnatomy and PhysiologyInterleukin-1betalcsh:MedicineGene ExpressionMatrix metalloproteinaseBiochemistryCell MovementDrug Discoverylcsh:ScienceMusculoskeletal SystemCells CulturedChemokine CCL2MultidisciplinarybiologyReverse Transcriptase Polymerase Chain ReactionSynovial MembraneNF-kappa BInterleukinCell migrationmedicine.anatomical_structureMedicineFemaleMatrix Metalloproteinase 3Inflammation MediatorsMatrix Metalloproteinase 1Mitogen-Activated Protein KinasesResearch ArticleCell PhysiologyBlotting WesternRheumatologySynovitisOsteoarthritisOrganometallic CompoundsmedicineHumansInterleukin 8BiologyAgedCell ProliferationChemokine CCL20lcsh:RInterleukin-8medicine.diseaseTranscription Factor AP-1CCL20Oxidative StressSmall MoleculesImmunologyCancer researchbiology.proteinlcsh:QSynovial membraneHeme Oxygenase-1PLoS ONE
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“Super p53” Mice Display Retinal Astroglial Changes

2013

Tumour-suppressor genes, such as the p53 gene, produce proteins that inhibit cell division under adverse conditions, as in the case of DNA damage, radiation, hypoxia, or oxidative stress (OS). The p53 gene can arrest proliferation and trigger death by apoptosis subsequent to several factors. In astrocytes, p53 promotes cell-cycle arrest and is involved in oxidative stress-mediated astrocyte cell death. Increasingly, astrocytic p53 is proving fundamental in orchestrating neurodegenerative disease pathogenesis. In terms of ocular disease, p53 may play a role in hypoxia due to ischaemia and may be involved in the retinal response to oxidative stress (OS). We studied the influence of the p53 ge…

PathologyAnatomy and PhysiologyCell divisionMouselcsh:MedicineFluorescent Antibody Techniquemedicine.disease_causechemistry.chemical_compoundMiceMolecular Cell Biologylcsh:ScienceMultidisciplinaryGlial fibrillary acidic proteinAnimal ModelsCell biologymedicine.anatomical_structureMedicineOftalmologíaDNA modificationAstrocyteResearch ArticleSignal TransductionProgrammed cell deathmedicine.medical_specialtyCell PhysiologyHistologyOcular AnatomyNeurocienciasMice TransgenicBiologyRetinaModel OrganismsOcular SystemGlial Fibrillary Acidic ProteinmedicineGeneticsAnimalsBiologyRetinaStaining and Labelinglcsh:RRetinalAnatomía ocularMice Inbred C57BLGenética médicaOphthalmologychemistryApoptosisAstrocytesbiology.proteinlcsh:QGene expressionGene FunctionTumor Suppressor Protein p53Animal GeneticsOxidative stress
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Establishment of a pulmonary epithelial barrier on biodegradable poly-L-lactic-acid membranes

2019

Development of biocompatible and functional scaffolds for tissue engineering is a major challenge, especially for development of polarised epithelia that are critical structures in tissue homeostasis. Different in vitro models of the lung epithelial barrier have been characterized using non-degradable polyethylene terephthalate membranes which limits their uses for tissue engineering. Although poly-L-lactic acid (PLLA) membranes are biodegradable, those prepared via conventional Diffusion Induced Phase Separation (DIPS) lack open-porous geometry and show limited permeability compromising their use for epithelial barrier studies. Here we used PLLA membranes prepared via a modification of the…

PhysiologyCell MembranesCell Culture TechniquesBiocompatible Materials02 engineering and technologyEpitheliumTissue engineeringAnimal CellsAbsorbable ImplantsMaterials TestingElectric ImpedanceMedicine and Health SciencesLungTissue homeostasisBarrier functionStaining0303 health sciencesMultidisciplinaryTissue ScaffoldsTight junctionPolyethylene TerephthalatesChemistryQRCell Staining021001 nanoscience & nanotechnologyMembrane StainingElectrophysiologyMembranePhysical SciencesMedicineCytokinesBiological CulturesCellular Structures and OrganellesJunctional ComplexesCellular TypesAnatomy0210 nano-technologyResearch ArticleCell PhysiologySciencePolyestersMaterials ScienceMaterial PropertiesResearch and Analysis MethodsMembrane PotentialPermeabilityCell LineTight Junctions03 medical and health sciencesCell AdhesionHumans030304 developmental biologyBiochemistry Genetics and Molecular Biology (all)Tissue EngineeringBiology and Life SciencesEpithelial CellsMembranes ArtificialCell BiologyCell CulturesBiological TissueAgricultural and Biological Sciences (all)Specimen Preparation and TreatmentCell culturePermeability (electromagnetism)BiophysicsCytokine secretionPLOS ONE
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The ER-Membrane Transport System Is Critical for Intercellular Trafficking of the NSm Movement Protein and Tomato Spotted Wilt Tospovirus.

2015

Plant viruses move through plasmodesmata to infect new cells. The plant endoplasmic reticulum (ER) is interconnected among cells via the ER desmotubule in the plasmodesma across the cell wall, forming a continuous ER network throughout the entire plant. This ER continuity is unique to plants and has been postulated to serve as a platform for the intercellular trafficking of macromolecules. In the present study, the contribution of the plant ER membrane transport system to the intercellular trafficking of the NSm movement protein and Tomato spotted wilt tospovirus (TSWV) is investigated. We showed that TSWV NSm is physically associated with the ER membrane in Nicotiana benthamiana plants. An…

RNA viruses0301 basic medicineLeavesCell MembranesNicotiana benthamianaPlant ScienceEndoplasmic ReticulumPathology and Laboratory MedicineBiochemistrySolanum lycopersicumTospovirusBunyavirusesMedicine and Health SciencesArabidopsis thalianaMovement proteinBiology (General)Integral membrane proteinSecretory PathwaybiologyPlant BiochemistryPlant AnatomyPlasmodesmataProteïnes de membranafood and beveragesPlantsPlants Genetically ModifiedCell biologyTransport proteinPlant Viral Movement ProteinsProtein TransportMedical MicrobiologyCell ProcessesViral PathogensVirusesPathogensCellular Structures and OrganellesTomato Spotted Wilt VirusResearch ArticleBioquímicaCell PhysiologyQH301-705.5Arabidopsis ThalianaImmunologyPlant PathogensBrassicaPlasmodesmaResearch and Analysis MethodsMicrobiologyPlant Viral Pathogens03 medical and health sciencesModel OrganismsPlant and Algal ModelsVirologyTobaccoGeneticsIntegral Membrane ProteinsSecretionMicrobial PathogensMolecular BiologyPlant DiseasesBiology and life sciencesEndoplasmic reticulumfungiOrganismsMembrane ProteinsCell BiologyPlant PathologyRC581-607biology.organism_classificationVirosis (Plantes)VirologyPlant Leaves030104 developmental biologyMembrane TraffickingParasitologyImmunologic diseases. AllergyPLoS Pathogens
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Human norovirus binding to select bacteria representative of the human gut microbiota

2016

Recent reports describe the ability of select bacterial strains to bind human norovirus, although the specificity of such interactions is unknown. The purpose of this work was to determine if a select group of bacterial species representative of human gut microbiota bind to human norovirus, and if so, to characterize the intensity and location of that binding. The bacteria screened included naturally occurring strains isolated from human stool (Klebsiella spp., Citrobacter spp., Bacillus spp., Enterococcus faecium and Hafnia alvei) and select reference strains (Staphylococcus aureus and Enterobacter cloacae). Binding in PBS was evaluated to three human norovirus strains (GII.4 New Orleans 2…

RNA viruses0301 basic medicinePhysiologyvirusesEnterococcus faeciumFimbrialcsh:MedicineBacillusPathology and Laboratory Medicinemedicine.disease_causePilusFecesBinding AnalysisCitrobacterKlebsiellaMedicine and Health SciencesElectron Microscopylcsh:ScienceCitrobacterMicroscopyMultidisciplinarybiologyChemistryBody FluidsBloodMedical MicrobiologyViral PathogensVirusesAnaerobic bacteriaPathogensAnatomyCell Binding AssayResearch ArticleCell BindingStaphylococcus aureusCell PhysiologyAnaerobic BacteriaResearch and Analysis MethodsMicrobiologyCalicivirusesMicrobiology03 medical and health sciencesEnterobacter cloacaemedicineHumansMicrobial PathogensChemical CharacterizationBiology and life sciencesBacteriaNoroviruslcsh:ROrganismsHafnia alveiCell Biologybiology.organism_classificationCulture MediaGastrointestinal Microbiome030104 developmental biologyFimbriae BacterialNorovirusMicrobial InteractionsTransmission Electron Microscopylcsh:QEnterobacter cloacaeBacteriaEnterococcus faeciumPLOS ONE
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Erratum to “Neurotrophin secretion: current facts and future prospects” [Progr. Neurobiol. 69 (2003) 341–374]

2004

Erratum to “Neurotrophin secretion: current facts and future prospects” [Progr. Neurobiol. 69 (2003) 341–374] Volkmar Lessmann a,∗, Kurt Gottmann b, Marzia Malcangio c a Department of Physiology and Pathophysiology, Johannes Gutenberg-University Mainz, Duesbergweg 6, Room 03/619, Mainz 55128, Germany b Department of Cell Physiology, Ruhr-University Bochum, Bochum, Germany c Sensory Function, Centre for Neuroscience, King’s College, London, UK

Sensory functionCell physiologybiologyGeneral Neurosciencebiology.proteinNeuroscienceNeurotrophinProgress in Neurobiology
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Gastric emptying, small intestinal transit and fecal output in dystrophic (mdx) mice.

2009

Duchenne muscular dystrophy (DMD), which results from deficiency in dystrophin, a sarcolemma protein of skeletal, cardiac and smooth muscle, is characterized by progressive striated muscle degeneration, but various gastrointestinal clinical manifestations have been observed. The aim was to evaluate the possible impact of the dystrophin loss on the gastrointestinal propulsion in mdx mice (animal model for DMD). The gastric emptying of a carboxymethyl cellulose/phenol red dye non-nutrient meal was not significantly different at 20 min from gavaging between wild-type and mdx mice. The intestinal transit and the fecal output were significantly decreased in mdx versus normal animals, although th…

musculoskeletal diseasesCell physiologyDuchenne muscular dystrophyMalecongenital hereditary and neonatal diseases and abnormalitiesmdx mousemedicine.medical_specialtyPhysiologyDuchenne muscular dystrophySettore BIO/09 - FisiologiaMiceIn vivoInternal medicineIntestine SmallMedicineAnimalsmdx mouseMuscular dystrophyDefecationSarcolemmabiologyGastric emptyingbusiness.industryMuscular Dystrophy Animalmusculoskeletal systemmedicine.diseaseMice Inbred C57BLDisease Models AnimalEndocrinologyGastric Emptyingbiology.proteinFecal outputMice Inbred mdxIntestinal transitbusinessDystrophinGastrointestinal MotilityThe journal of physiological sciences : JPS
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