Search results for "Glycosylation"

showing 10 items of 190 documents

Insertion and Topology of a Plant Viral Movement Protein in the Endoplasmic Reticulum Membrane

2002

Virus-encoded movement proteins (MPs) mediate cell-to-cell spread of viral RNA through plant membranous intercellular connections, the plasmodesmata. The molecular pathway by which MPs interact with viral genomes and target plasmodesmata channels is largely unknown. The 9-kDa MP from carnation mottle carmovirus (CarMV) contains two potential transmembrane domains. To explore the possibility that this protein is in fact an intrinsic membrane protein, we have investigated its insertion into the endoplasmic reticulum membrane. By using in vitro translation in the presence of dog pancreas microsomes, we demonstrate that CarMV p9 inserts into the endoplasmic reticulum without the aid of any addi…

BioquímicaGlycosylationMolecular Sequence DataPlasmodesmaBiologyEndoplasmic ReticulumTopologyBiochemistryProtein Structure SecondaryViral ProteinsAmino Acid SequenceMolecular BiologyEndoplasmic reticulumCarmovirusProteïnes de membranaMembrane ProteinsSTIM1Translation (biology)Cell Biologybiology.organism_classificationVirusCell biologyPlant Viral Movement ProteinsTobacco Mosaic VirusTransmembrane domainCytoplasmMembrane topologyCarmovirusJournal of Biological Chemistry
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Increasing functional avidity of TCR-redirected T cells by removing defined N-glycosylation sites in the TCR constant domain

2009

Adoptive transfer of T lymphocytes transduced with a T cell receptor (TCR) to impart tumor reactivity has been reported as a potential strategy to redirect immune responses to target cancer cells (Schumacher, T.N. 2002. Nat. Rev. Immunol. 2:512-519). However, the affinity of most TCRs specific for shared tumor antigens that can be isolated is usually low. Thus, strategies to increase the affinity of TCRs or the functional avidity of TCR-transduced T cells might be therapeutically beneficial. Because glycosylation affects the flexibility, movement, and interactions of surface molecules, we tested if selectively removing conserved N-glycoslyation sites in the constant regions of TCR alpha or …

CD4-Positive T-LymphocytesModels MolecularAdoptive cell transferGlycosylationCD3ImmunologyReceptors Antigen T-Cellchemical and pharmacologic phenomenaEnzyme-Linked Immunosorbent AssayStreptamerBiologyArticleCell Line03 medical and health sciencesMice0302 clinical medicineImmune systemTetramerAntigenModelsCell Line TumorNeoplasmsReceptorsImmunology and AllergyAnimalsHumansAvidity030304 developmental biology0303 health sciencesTumorReverse Transcriptase Polymerase Chain ReactionT-cell receptorTemperatureMolecularhemic and immune systemsT-CellFlow CytometryMolecular biologyAdoptive TransferAntigenbiology.protein030215 immunologyProtein Binding
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The AC133 epitope, but not the CD133 protein, is lost upon cancer stem cell differentiation.

2010

Abstract Colon cancer stem cells (CSC) can be identified with AC133, an antibody that detects an epitope on CD133. However, recent evidence suggests that expression of CD133 is not restricted to CSCs, but is also expressed on differentiated tumor cells. Intriguingly, we observed that detection of the AC133 epitope on the cell surface decreased upon differentiation of CSC in a manner that correlated with loss of clonogenicity. However, this event did not coincide with a change in CD133 promoter activity, mRNA, splice variant, protein expression, or even cell surface expression of CD133. In contrast, we noted that with CSC differentiation, a change occured in CD133 glycosylation. Thus, AC133 …

Cancer ResearchGlycosylationGlycosylationCellular differentiationCellAC 133 EpitopeDown-RegulationMice SCIDEpitopechemistry.chemical_compoundEpitopesMiceCancer stem cellAntigens CDMice Inbred NODProminin-1medicineTumor Cells CulturedAnimalsHumansProtein IsoformsAC133 AntigenRNA MessengerPromoter Regions GeneticneoplasmsGlycoproteinsbiologyCell DifferentiationMolecular biologycarbohydrates (lipids)Gene Expression Regulation Neoplasticmedicine.anatomical_structureOncologychemistryembryonic structuresColonic Neoplasmsbiology.proteinNeoplastic Stem CellsAntibodyStem cellPeptidesCancer research
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Synthetic Glycopeptides from the Mucin Family as Potential Tools in Cancer Immunotherapy

2006

Compared to glycoproteins of healthy cells, glycoproteins of tumor cells are often aberrantly glycosylated. Thus, glycopeptide fragments of surface glycoproteins of tumor cells are of interest as tumor-associated antigens for the distinction between normal and tumor cells. Cancer immunotherapy directed at selectively targeting these tumor-associated glycoprotein structure alterations--deficient glycosylation and, thus, exposure of peptide epitopes which are masked in normal cells--is considered a promising approach for the treatment of cancer. For this purpose, glycoproteins from the mucin family are of particular interest. Mucins belong to a class of heavily O-glycosylated, high-molecular …

Cancer ResearchGlycosylationmedicine.medical_treatmentAntineoplastic AgentsBiologyEpitopechemistry.chemical_compoundCancer immunotherapyAntigenNeoplasmsDrug DiscoverymedicineAnimalsHumansCytotoxic T cellPharmacologychemistry.chemical_classificationMucinGlycopeptidesMucinsImmunotherapy ActiveGlycopeptideOncologyBiochemistrychemistryMultigene FamilyGlycoproteinCurrent Cancer Drug Targets
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2004

Cancer Researchchemistry.chemical_compoundGlycosylationSignallingOncologyBiochemistrychemistryGeneticsBiologyCell biologyCancer Cell International
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L-asparaginase inhibits invasive and angiogenic activity and induces autophagy in ovarian cancer

2012

Recent work identified L-asparaginase (L-ASP) as a putative therapeutic target for ovarian cancer. We suggest that L-ASP, a dysregulator of glycosylation, would interrupt the local microenvironment, affecting the ovarian cancer cell-endothelial cell interaction and thus angiogenesis without cytotoxic effects. Ovarian cancer cell lines and human microvascular endothelial cells (HMVEC) were exposed to L-ASP at physiologically attainable concentrations and subjected to analyses of endothelial tube formation, invasion, adhesion and the assessment of sialylated proteins involved in matrix-associated and heterotypic cell adhesion. Marked reduction in HMVEC tube formation in vitro, HMVEC and ovari…

Cell typeautophagyGlycosylationAngiogenesisCellOligosaccharidesAngiogenesis InhibitorsBiologyL-asparaginase; ovarian cancer; angiogenesisCell-Matrix JunctionsangiogenesisSettore BIO/13 - Biologia ApplicataCell Line TumorE-selectinmedicineCell AdhesionHumansCell adhesionSialyl Lewis X AntigenTube formationOvarian NeoplasmsNeovascularization PathologicIntegrin beta1AutophagyEndothelial CellsCell BiologyOriginal Articlesmedicine.diseaseasparaginaseL-asparaginaseCell biologymedicine.anatomical_structureovarian cancersialyl Lewis Xbiology.proteinMolecular MedicineFemaleOvarian cancerE-Selectin
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Different adhesins for type IV collagen on Candida albicans: identification of a lectin-like adhesin recognizing the 7S(IV) domain

2001

Adherence of the opportunistic pathogen Candida albicans to basement membrane (BM) proteins is considered a crucial step in the development of candidiasis. In this study the interactions of C. albicans yeast cells with the three main domains of type IV collagen, a major BM glycoprotein, were analysed. C. albicans adhered to the three immobilized domains by different mechanisms. Adhesion to the N-terminal cross-linking domain (7S) required the presence of divalent cations, whereas interaction with the central collagenous domain (CC) was cation-independent. Recognition of the C-terminal non-collagenous domain (NC1) was partially cation-dependent. Binding inhibition assays with the correspondi…

Collagen Type IVGlycosylationImmunoblottingOligosaccharidesBiologyMicrobiologyBasement MembraneType IV collagenOligosaccharide bindingCationsLectinsCandida albicansCell AdhesionAnimalsCandida albicanschemistry.chemical_classificationExtracellular Matrix ProteinsLectinOligosaccharidebiology.organism_classificationCorpus albicansBacterial adhesinchemistryBiochemistrybiology.proteinCattleGlycoproteinMicrobiology
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The La antigen shuttles between the nucleus and the cytoplasm in CV-1 cells

1989

Recently we established a monoclonal antibody against the La-protein (Bachmann et al., Proc. Natl. Acad. Sci. USA, 83, 7770, 1986). The antibody gives a nuclear speckled type staining and, in addition, a perinuclear cytoplasmic staining on cultured cells in immunofluorescence microscopy. After inhibition of RNA synthesis the La-protein is transported into the cytoplasm. After prolonged inhibition it returns into the nucleus forming large growing speckles. The transport into the nucleus apparently depends on glycosylation.

CytoplasmGlycosylationmedicine.drug_classClinical BiochemistryFluorescent Antibody TechniqueMonoclonal antibodyAutoantigensCell Linechemistry.chemical_compoundmedicineAnimalsMolecular BiologyCell NucleusbiologyAutoantibodyAntibodies MonoclonalCell BiologyGeneral MedicineMolecular biologyStainingMolecular Weightmedicine.anatomical_structureRibonucleoproteinschemistryCytoplasmNucleocytoplasmic Transportbiology.proteinAntibodyProtein Processing Post-TranslationalNucleusTranscription FactorsMolecular and Cellular Biochemistry
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The glycosyltransferase activities of lysyl hydroxylase 3 (LH3) in the extracellular space are important for cell growth and viability.

2008

Abstract Lysyl hydroxylase (LH) isoform 3 is a post-translational enzyme possessing LH, collagen galactosyltransferase (GT) and glucosyltransferase (GGT) activities. We have demonstrated that LH3 is found not only intracellularly, but also on the cell surface and in the extracellular space, suggesting additional functions for LH3. Here we show that the targeted disruption of LH3 by siRNA causes a marked reduction of both glycosyltransferase activities, and the overexpression of LH3 in HT-1080 cells increases hydroxylation of lysyl residues and the subsequent galactosylation and glucosylation of hydroxylysyl residues. These data confirm the multi-functionality of LH3 in cells. Furthermore, t…

DNA ComplementaryGlycosylationCell SurvivalLysyl hydroxylaseCellhydroxylysyl glycosylationFluorescent Antibody Techniquelysyl hydroxylaseMicrotubulesPermeabilityCell LineGlycosyltransferasemedicineExtracellularAnimalsHumanscell growthViability assayRNA Small InterferingCell Shapecell viabilityCell ProliferationbiologyCell DeathCell growthProcollagen-Lysine 2-Oxoglutarate 5-Dioxygenasecollagen biosynthesisGlycosyltransferasesCell BiologyArticlesGalactosyltransferasesMolecular biologyPeptide FragmentsCulture MediaActin Cytoskeletonmedicine.anatomical_structurepost-translational modificationCell culturebiology.proteinMolecular MedicineGlucosyltransferaseExtracellular Spacehydroxylysyl glycosyltransferaseJournal of cellular and molecular medicine
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The Chaperone Activity of Clusterin is Dependent on Glycosylation and Redox Environment

2014

Background/Aims: Clusterin (CLU), also known as Apolipoprotein J (ApoJ) is a highly glycosylated extracellular chaperone. In humans it is expressed from a broad spectrum of tissues and related to a plethora of physiological and pathophysiological processes, such as Alzheimer's disease, atherosclerosis and cancer. In its dominant form it is expressed as a secretory protein (secreted CLU, sCLU). During its maturation, the sCLU-precursor is N-glycosylated and cleaved into an α- and a β-chain, which are connected by five symmetrical disulfide bonds. Recently, it has been demonstrated that besides the predominant sCLU, rare intracellular CLU forms are expressed in stressed cells. Since these for…

DNA ComplementaryGlycosylationGlycosylationPhysiologyMutantCarbohydrateslcsh:Physiologylcsh:Biochemistrychemistry.chemical_compoundChaperonesHumanslcsh:QD415-436Redox biologySecretory pathwaylcsh:QP1-981ClusterinbiologyRetro-translocationProprotein convertaseProteostasis networkOxidative StressClusterinSecretory proteinHeat shockchemistryBiochemistryApolipoprotein JChaperone (protein)Proteolysisbiology.proteinOxidation-ReductionIntracellularMolecular ChaperonesFurin-like proprotein convertasesCellular Physiology and Biochemistry
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