Search results for " Cytoskeleton"

showing 10 items of 105 documents

Regulatory T cell-derived adenosine induces dendritic cell migration through the Epac-Rap1 pathway.

2014

Abstract Dendritic cells (DC) are one target for immune suppression by regulatory T cells (Treg), because their interaction results in reduced T cell stimulatory capacity and secretion of inhibitory cytokines in DC. We show that DC in the presence of Treg are more mobile as compared with cocultures with conventional CD4+ T cells and form DC–Treg aggregates within 2 h of culture. The migration of DC was specifically directed toward Treg, as Treg, but not CD4+ T cells, attracted DC in Boyden chambers. Treg deficient for the ectonucleotidase CD39 were unable to attract DC. Likewise, addition of antagonists for A2A adenosine receptors abolished the formation of DC–Treg clusters, indicating a ro…

AdenosineRegulatory T cellT cellImmunologyMedizinchemical and pharmacologic phenomenaCell CommunicationBiologyT-Lymphocytes RegulatoryMiceAdenosine TriphosphateAntigens CDCell MovementmedicineImmunology and AllergyAnimalsGuanine Nucleotide Exchange FactorsDendritic cell migrationReceptors Adenosine A2Apyraserap1 GTP-Binding Proteinshemic and immune systemsDendritic CellsActin cytoskeletonAdenosineAdenosine receptorCell biologyActin Cytoskeletonmedicine.anatomical_structureRap1Signal transductionmedicine.drugSignal TransductionJournal of immunology (Baltimore, Md. : 1950)
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Desmin-related myopathies

1997

Desmin-related myopathies are marked by accumulation of desmin, which is often familial and associated with cardiomyopathy. When multifocal this excess is characterized by inclusions such as cytoplasmic or spheroid bodies, when disseminated the excess is called granulofilamentous material. Excess of desmin might represent an abnormal type of protein metabolism.

AdultPathologymedicine.medical_specialtyGranulofilamentous materialCardiomyopathyChromosome DisordersGenes Recessivemacromolecular substancesBiologyDesminMuscular DiseasesmedicineHumansChildMuscle SkeletalGenotype-Phenotype CorrelationsGenes DominantChromosome AberrationsInclusion BodiesDESMIN-RELATED MYOPATHYMyocardiumMolecular pathogenesismusculoskeletal systemmedicine.diseaseActin CytoskeletonNeurologyCytoplasmDesminNeurology (clinical)CardiomyopathiesCurrent Opinion in Neurology
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Fetal akinesia caused by a novel actin filament aggregate myopathy skeletal muscle actin gene (ACTA1) mutation.

2010

We report a female newborn, diagnosed with fetal akinesia in utero, who died one hour after birth. Post-mortem muscle biopsy demonstrated actin-filament myopathy based on immunolabelling for sarcomeric actin, and large areas of filaments, without rod formation, ultrastructurally. Analysis of DNA extracted from the muscle disclosed a novel de novo heterozygous c.44G>A, GGC>GAC, 'p.Gly15Asp' mutation in the ACTA1 gene. Analysis of the location of the mutated amino-acid in the actin molecule suggests the mutation most likely causes abnormal nucleotide binding, and consequent pathological actin polymerization. This case emphasizes the association of fetal akinesia with actin-filament myopathy.

AdultSarcomeresmacromolecular substancesBiologymedicine.disease_causeSarcomereNemaline myopathyPregnancymedicineHumansMyopathyMuscle SkeletalGenetics (clinical)ActinMutationMuscle biopsymedicine.diagnostic_testMicrofilament ProteinsInfant NewbornSkeletal muscleDNANeuromuscular DiseasesActin cytoskeletonmedicine.diseaseMolecular biologyActin CytoskeletonFetal Diseasesmedicine.anatomical_structureNeurologyBiochemistryPediatrics Perinatology and Child HealthMutationFemaleNeurology (clinical)medicine.symptomNeuromuscular disorders : NMD
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Small GTP-binding proteins of the Rho- and Ras-subfamilies are not involved in the actin rearrangements induced by attaching and effacingEscherichia …

1998

Attaching and effacing Escherichia coli (AEEC) are extracellular pathogens that induce the formation of actin-rich structures at their sites of attachment to eukaryotic host cells. We analysed whether small GTP-binding proteins of the Rho- and Ras-subfamilies, which control the cellular actin system, are essential for these bacterial-induced microfilament reorganizations. For this purpose we specifically inactivated them using the Clostridium difficile toxins TcdB-10463 and TcdB-1470. Such treatment led to a dramatic breakdown of the normal actin cytoskeleton, but did not abrogate the bacterial-induced actin rearrangements. Our data therefore indicate that the microfilament reorganizations …

Bacterial ToxinsExotoxinsArp2/3 complexmacromolecular substancesShiga ToxinsMicrofilamentMicrobiologyGTP-Binding ProteinsEscherichia coliGeneticsAnimalsHumansActin-binding proteinCytoskeletonMolecular BiologyActinbiologyClostridioides difficileActin remodelingActin cytoskeletonActinsActin CytoskeletonMicroscopy ElectronBiochemistryMicroscopy Electron Scanningras Proteinsbiology.proteinCattleMDia1HeLa CellsFEMS Microbiology Letters
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cIAP1 regulates TNF-mediated cdc42 activation and filopodia formation

2013

International audience; umour necrosis factor-α (TNF) is a cytokine endowed with multiple functions, depending on the cellular and environmental context. TNF receptor engagement induces the formation of a multimolecular complex including the TNFR-associated factor TRAF2, the receptor-interaction protein kinase RIP1 and the cellular inhibitor of apoptosis cIAP1, the latter being essential for NF-κB activation. Here, we show that cIAP1 also regulates TNF-induced actin cytoskeleton reorganization through a cdc42-dependent, NF-κB-independent pathway. Deletion of cIAP1 prevents TNF-induced filopodia and cdc42 activation. The expression of cIAP1 or its E3-ubiquitin ligase-defective mutant restore…

Cancer ResearchLung NeoplasmsBlotting WesternFluorescent Antibody Techniquemacromolecular substancesCDC42BiologyTransfectionInhibitor of Apoptosis ProteinsMice03 medical and health sciences0302 clinical medicineCell AdhesionGeneticsAnimalsHumansImmunoprecipitationNeoplasm InvasivenessPseudopodia[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronicscdc42 GTP-Binding ProteinMolecular Biology030304 developmental biology0303 health sciencesTumor Necrosis Factor-alphaActin cytoskeleton reorganizationCell PolarityActin remodelingSurface Plasmon ResonanceActin cytoskeletonCell biologyActin CytoskeletonDisease Models AnimalHEK293 CellsCdc42 GTP-Binding Protein030220 oncology & carcinogenesisNIH 3T3 CellsHeterografts[ SPI.NANO ] Engineering Sciences [physics]/Micro and nanotechnologies/MicroelectronicsPseudopodiaSignal transductionFilopodiaSignal TransductionOncogene
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Physiological mechanisms regulating the expression of endothelial-type NO synthase

2002

Although endothelial nitric oxide synthase (eNOS) is a constitutively expressed enzyme, its expression is regulated by a number of biophysical, biochemical, and hormonal stimuli, both under physiological conditions and in pathology. This review summarizes the recent findings in this field. Shear stress, growth factors (such as transforming growth factor-beta, fibroblast growth factor, vascular endothelial growth factor, and platelet-derived growth factor), hormones (such as estrogens, insulin, angiotensin II, and endothelin 1), and other compounds (such as lysophosphatidylcholine) upregulate eNOS expression. On the other hand, the cytokine tumor necrosis factor-alpha and bacterial lipopolys…

Cancer Researchmedicine.medical_specialtyNitric Oxide Synthase Type IIIPhysiologyRNA Stabilitymedicine.medical_treatmentClinical BiochemistryBiologyFibroblast growth factorBiochemistryGene Expression Regulation Enzymologicchemistry.chemical_compoundEnosInternal medicinemedicineAnimalsPromoter Regions GeneticRegulation of gene expressionBase SequenceGene Expression ProfilingGrowth factorbiology.organism_classificationActin cytoskeletonAngiotensin IICell biologyVascular endothelial growth factorEndocrinologychemistryNitric Oxide SynthaseSignal transductionSignal TransductionNitric Oxide
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TCDD-dependent downregulation of gamma-catenin in rat liver epithelial cells (WB-F344).

2002

TCDD (2,3,7,8-tetrachlorodibenzo-p-dioxin) is the most potent tumor promoter ever tested in rodents. Although it is known that most of the effects of TCDD are mediated by binding to the aryl hydrocarbon receptor (AHR), the mechanisms leading to tumor promotion still remain to be elucidated. Loss of contact-inhibition is a characteristic hallmark in tumorigenesis. In WB-F344 cells, TCDD induces a release from contact-inhibition manifested by a 2- to 3-fold increase in DNA-synthesis and the emergence of foci when TCDD (1 nM) is given to confluent cells. We focussed our interest on potential cell membrane proteins mediating contact-inhibition in WB-F344 cells, namely E-cadherin, alpha,- beta,-…

Cancer Researchmedicine.medical_specialtyPolychlorinated DibenzodioxinsTime FactorsOctoxynolBlotting WesternDetergentsDown-RegulationDownregulation and upregulationInternal medicinemedicineAnimalsFluorescent Antibody Technique IndirectCells Culturedbeta CateninConfluencybiologyReverse Transcriptase Polymerase Chain ReactionLiver NeoplasmsContact inhibitionEpithelial CellsDNAAryl hydrocarbon receptorActin cytoskeletonBlotting NorthernCadherinsCell biologyRatsCytoskeletal ProteinsEndocrinologyPhenotypeOncologyDesmoplakinsLiverMicroscopy FluorescenceCateninMutationbiology.proteinProteasome inhibitorCarcinogensTrans-ActivatorsTumor promotionEnvironmental Pollutantsgamma CateninCell Divisionalpha Cateninmedicine.drugInternational journal of cancer
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Filopodia-like actin cables position nuclei in association with perinuclear actin in Drosophila nurse cells

2013

Summary Controlling the position of the nucleus is vital for a number of cellular processes from yeast to humans. In Drosophila nurse cells, nuclear positioning is crucial during dumping, when nurse cells contract and expel their contents into the oocyte. We provide evidence that in nurse cells, continuous filopodia-like actin cables, growing from the plasma membrane and extending to the nucleus, achieve nuclear positioning. These actin cables move nuclei away from ring canals. When nurse cells contract, actin cables associate laterally with the nuclei, in some cases inducing nuclear turning so that actin cables become partially wound around the nuclei. Our data suggest that a perinuclear a…

Cell NucleusFilaminsaktiiniCell Membranemacromolecular substancesCadherinsArticleActinsActin CytoskeletonDrospphilaGerm CellsAnimalsDrosophila ProteinsDrosophilaPseudopodiakehitysbiologiaactinDevelopmental Biology
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Profilin 1 is required for abscission during late cytokinesis of chondrocytes

2009

Profilins are key factors for dynamic rearrangements of the actin cytoskeleton. However, the functions of profilins in differentiated mammalian cells are uncertain because profilin deficiency is early embryonic lethal for higher eukaryotes. To examine profilin function in chondrocytes, we disrupted the profilin 1 gene in cartilage (Col2pfn1). Homozygous Col2pfn1 mice develop progressive chondrodysplasia caused by disorganization of the growth plate and defective chondrocyte cytokinesis, indicated by the appearance of binucleated cells. Surprisingly, Col2pfn1 chondrocytes assemble and contract actomyosin rings normally during cell division; however, they display defects during late cytokines…

Cell divisionMice Transgenicmacromolecular substancesBiologyMyosinsOsteochondrodysplasiasGeneral Biochemistry Genetics and Molecular BiologyChondrocyteArticleBone and BonesMiceProfilinsChondrocytesMyosinmedicineAnimalsMolecular BiologyActinCytokinesisGeneral Immunology and MicrobiologyGeneral NeuroscienceActin cytoskeletonActinsCell biologymedicine.anatomical_structureCartilageProfilinGene Targetingbiology.proteinLamellipodiumCytokinesis
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The translocation of signaling molecules in dark adapting mammalian rod photoreceptor cells is dependent on the cytoskeleton.

2008

In vertebrate rod photoreceptor cells, arrestin and the visual G-protein transducin move between the inner segment and outer segment in response to changes in light. This stimulus dependent translocation of signalling molecules is assumed to participate in long term light adaptation of photoreceptors. So far the cellular basis for the transport mechanisms underlying these intracellular movements remains largely elusive. Here we investigated the dependency of these movements on actin filaments and the microtubule cytoskeleton of photoreceptor cells. Co-cultures of mouse retina and retinal pigment epithelium were incubated with drugs stabilizing and destabilizing the cytoskeleton. The actin a…

Cell signalingCytochalasin Dgenetic structuresLightPaclitaxelPhalloidineDark AdaptationBiologyHeterocyclic Compounds 4 or More RingsMicrotubulesRetinaMiceStructural BiologyMicrotubuleRetinal Rod Photoreceptor CellsCytoskeletal drugsThiabendazolemedicineArrestinAnimalsTransducinCytoskeletonMicroscopy ImmunoelectronActinCytoskeletonVision OcularMice KnockoutRetinal pigment epitheliumArrestinHomozygoteCell BiologyDarknessRod Cell Outer Segmenteye diseasesActinsCell biologyMice Inbred C57BLActin CytoskeletonProtein Transportmedicine.anatomical_structureMicroscopy Fluorescencesense organsTransducinCell Migration AssaysSignal TransductionCell motility and the cytoskeleton
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