Search results for "Keratins"

showing 10 items of 105 documents

Identification of protein IT of the intestinal cytoskeleton as a novel type I cytokeratin with unusual properties and expression patterns.

1990

A major cytoskeletal polypeptide (Mr approximately 46,000; protein IT) of human intestinal epithelium was characterized by biochemical and immunological methods. The polypeptide, which was identified as a specific and genuine mRNA product by translation in vitro, reacted, in immunoblotting after SDS-PAGE, only with one of numerous cytokeratin (CK) antisera tested but with none of many monoclonal CK antibodies. In vitro, it formed heterotypic complexes with the type II CK 8, as shown by blot binding assays and gel electrophoresis in 4 M urea, and these complexes assembled into intermediate filaments (IFs) under appropriate conditions. A chymotrypsin-resistant Mr approximately 38,000 core fra…

DuodenumImmunoblottingMolecular Sequence DataBiologyPeptide MappingEpitheliumCytokeratinIntestinal mucosaSequence Homology Nucleic AcidKeratinProtein biosynthesisAnimalsHumansElectrophoresis Gel Two-DimensionalAmino Acid SequenceRNA MessengerIntestinal MucosaIntermediate filamentCytoskeletonPeptide sequenceCytoskeletonchemistry.chemical_classificationArticlesCell BiologyMolecular biologyRatsBlotCytoskeletal ProteinsMicroscopy ElectronBiochemistrychemistryProtein BiosynthesisKeratinsJournal of Cell Biology
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Human type I cytokeratin genes are a compact cluster

1997

A YAC clone (211F11) containing approximately 0.5 Mb of human DNA was isolated from a human genomic library by PCR-based screening with cytokeratin (KRT) 13-specific primers. The YAC clone was mapped by FISH to the long arm of chromosome 17 (17q12→q21), a region to which several other type I KRT genes had been mapped previously. We now show by Southern blot hybridization and PFGE analyses that KRT13, 14, 15, and 16 are all contained within YAC clone 211F11. Long-range restriction mapping analysis of clone 211F11 and of two smaller YAC clones that were also isolated with KRT13-specific primers, suggests that KRT13, 14, 15, 16 and their linked type I genes KRT17 and 19, are contained in less …

Genetic LinkageLocus (genetics)BiologyPolymerase Chain ReactionRestriction mapGene mappingGene clusterGeneticsHumansGenomic libraryCloning MolecularChromosomes Artificial YeastMolecular BiologyIn Situ Hybridization FluorescenceGenetics (clinical)Southern blotGeneticsBase SequenceChromosome MappingMolecular biologyChromosome 17 (human)genomic DNAMultigene FamilyKeratinsDNA ProbesChromosomes Human Pair 17
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Immunohistochemical Study as a Tool in Differential Diagnosis of Pediatric Malignant Rhabdoid Tumor

2010

Malignant rhabdoid tumors (MRTs) are aggressive childhood neoplasms, occurring mainly in the kidney and brain. We describe 2 unusual cases of extrarenal and noncranial location (liver and soft tissue with dissemination) mimicking hepatoblastoma, neuroblastoma or Ewing sarcoma. Both cases revealed a polyphenotypic profile, combined with cytokeratin, vimentin, and CD99 expression. INI1/BAF-47 showed negative protein nuclear expression in both cases, suggesting a diagnosis of MRT. An extensive immunohistochemical panel was performed to exclude pediatric tumors reminiscent of MRT. The genetic studies failed to detected MYCN amplification, 11q23 deletion, and EWS break-apart positivity. No alter…

HepatoblastomaPathologymedicine.medical_specialtySkin NeoplasmsHistologyDesmoplastic small-round-cell tumorChromosomal Proteins Non-HistoneCD9912E7 AntigenN-Myc Proto-Oncogene ProteinPathology and Forensic MedicineDiagnosis DifferentialNeoplasms Multiple PrimaryFatal OutcomeAntigens CDNeuroblastomaAntineoplastic Combined Chemotherapy ProtocolsmedicineHumansVimentinRhabdoid TumorChromosome AberrationsOncogene ProteinsN-Myc Proto-Oncogene Proteinbusiness.industryLiver NeoplasmsInfant NewbornInfantNuclear ProteinsWilms' tumorSMARCB1 Proteinmedicine.diseaseImmunohistochemistryDNA-Binding ProteinsMedical Laboratory TechnologyDrug Resistance NeoplasmKeratinsFemaleSarcomaRNA-Binding Protein EWSDifferential diagnosisbusinessCell Adhesion MoleculesTranscription FactorsApplied Immunohistochemistry & Molecular Morphology
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In vitro production of anti-neutrophilocyte-cytoplasm-antibodies (ANCA) by Epstein-Barr virus-transformed B-cell lines in Wegener's granulomatosis.

1991

The frequent detection of anti-neutrophilocyte-cytoplasm-antibodies (ANCA) in patients with Wegener's granulomatosis (WG) led to the supposition that this disease might be of autoimmune nature. For some authors assume that Epstein-Barr virus (EBV) infection of human B-lymphocytes besides polyclonal activation could reveal the cryptic immune status against different autoantigens in patients with autoimmune diseases we investigated EBV-transformed B-lymphocytes from patients with Sjögren's syndrome, mixed connective tissue disease, WG and healthy blood donors. Two stable B-cell lines (Ho3, We1) could be established. Inhibition experiments showed that antibodies produced by transformed B-lymph…

Herpesvirus 4 HumanImmunologyBlotting WesternKidney GlomerulusFluorescent Antibody TechniqueCross ReactionsIn Vitro Techniquesmedicine.disease_causeVirusAntibodies Antineutrophil CytoplasmicMixed connective tissue diseaseAntigenmedicineImmunology and AllergyHumansB cellAgedAutoantibodiesB-LymphocytesbiologyInterleukin-6Granulomatosis with PolyangiitisMiddle Agedmedicine.diseaseCell Transformation ViralEpstein–Barr virusVirologymedicine.anatomical_structureImmunoglobulin MPolyclonal antibodiesImmunoglobulin GImmunologybiology.proteinKeratinsAntibodyClone (B-cell biology)Autoimmunity
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Evolution of tissue-specific keratins as deduced from novel cDNA sequences of the lungfish Protopterus aethiopicus.

2005

Lungfishes are possibly the closest extant relatives of the land vertebrates (tetrapods). We report here the cDNA and predicted amino acid sequences of 13 different keratins (ten type I and three type II) of the lungfish Protopterus aethiopicus. These keratins include the orthologs of human K8 and K18. The lungfish keratins were also identified in tissue extracts using two-dimensional polyacrylamide gel electrophoresis, keratin blot binding assays and immunoblotting. The identified keratin spots were analyzed by peptide mass fingerprinting which assigned seven sequences (inclusively Protopterus K8 and K18) to their respective protein spot. The peptide mass fingerprints also revealed the fac…

HistologyDNA ComplementaryMolecular Sequence DataFluorescent Antibody Techniquemacromolecular substancesPeptide MappingPathology and Forensic MedicineEvolution MolecularPeptide mass fingerprintingComplementary DNAKeratinAnimalsElectrophoresis Gel Two-DimensionalAmino Acid SequencePolyacrylamide gel electrophoresisLungfishchemistry.chemical_classificationProtopterusintegumentary systembiologyPhylogenetic treeLampreyFishesCell BiologyGeneral MedicineAnatomybiology.organism_classificationchemistryEvolutionary biologySpectrometry Mass Matrix-Assisted Laser Desorption-IonizationKeratinsEuropean journal of cell biology
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Tracing keratin evolution: catalog, expression patterns and primary structure of shark (Scyliorhinus stellaris) keratins.

1998

We have studied individual keratins of an elasmobranch, the shark Scyliorhinus stellaris (the lesser-spotted dogfish). From various shark tissues, notably skin and stomach, cytoskeletal proteins were isolated and then separated by two-dimensional polyacrylamide gel electrophoresis. Using complementary keratin blot-binding assays and immunoblotting, among these proteins we identified a variety of type I and type II keratins. According to their tissue-specific expression, we distinguished Is and IIs keratins from IE and IIE keratins ("S" and "E" from "simple epithelial" and "epidermal", respectively). Guinea pig antibodies which in immunoblots specifically labeled the entire range of identifi…

HistologyDNA ComplementaryMolecular Sequence Datamacromolecular substancesPathology and Forensic MedicineKeratinAnimalsHumansAmino Acid SequenceIntermediate filamentPolyacrylamide gel electrophoresisPeptide sequencechemistry.chemical_classificationintegumentary systemPhylogenetic treebiologyBase SequenceProtein primary structureCell BiologyGeneral MedicineKeratin 6Abiology.organism_classificationMolecular biologyBiological EvolutionchemistryMicroscopy FluorescenceSharksKeratinshuman activitiesScyliorhinus stellarisEuropean journal of cell biology
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Sequence, evolution and tissue expression patterns of an epidermal type I keratin from the shark Scyliorhinus stellaris.

2004

From the shark Scyliorhinus stellaris we cloned and sequenced a cDNA encoding a novel type I keratin, termed SstK10. By MALDI-MS peptide mass fingerprinting of cytoskeletal proteins separated on polyacrylamide gels, we assigned SstK10 to a 46-kDa protein which is the major epidermal type I (“IE”) keratin in this fish and is specifically expressed in stratified epithelia. In a phylogenetic tree based on type I keratin sequences and with lamprey keratins applied as outgroup, SstK10 branches off in a rather basal position. This tree strongly supports the concept that teleost keratins and tetrapod keratins resulted from two independent gene radiation processes. The only exception is human K18 b…

HistologyDNA ComplementaryType I keratinMolecular Sequence Datamacromolecular substancesMass SpectrometryPathology and Forensic MedicineSequence Analysis Proteinbiology.animalKeratinAnimalsAmino Acid SequenceCloning MolecularPhylogenychemistry.chemical_classificationintegumentary systemPhylogenetic treebiologyLampreyVertebrateCell BiologyGeneral MedicineGnathostomataKeratin 6AAnatomybiology.organism_classificationImmunohistochemistryCell biologychemistryEpidermal CellsGene Expression RegulationOrgan SpecificitySharksKeratinsElectrophoresis Polyacrylamide GelEpidermisScyliorhinus stellarisEuropean journal of cell biology
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Dissection of keratin dynamics: different contributions of the actin and microtubule systems.

2005

It has only recently been recognized that intermediate filaments (IFs) and their assembly intermediates are highly motile cytoskeletal components with cell-type- and isotype-specific characteristics. To elucidate the cell-type-independent contribution of actin filaments and microtubules to these motile properties, fluorescent epithelial IF keratin polypeptides were introduced into non-epithelial, adrenal cortex-derived SW13 cells. Time-lapse fluorescence microscopy of stably transfected SW13 cell lines synthesizing fluorescent human keratin 8 and 18 chimeras HK8-CFP and HK18-YFP revealed extended filament networks that are entirely composed of transgene products and exhibit the same dynamic…

HistologyRecombinant Fusion ProteinsArp2/3 complexAntineoplastic Agentsmacromolecular substancesBiologyMicrotubulesPathology and Forensic MedicineGenes ReporterKeratinHumansIntermediate filamentCytoskeletonchemistry.chemical_classificationKeratin FilamentNocodazoleActin remodelingCell BiologyGeneral MedicineBridged Bicyclo Compounds HeterocyclicActinsCell biologyActin CytoskeletonProtein TransportThiazoleschemistryMicroscopy Fluorescencebiology.proteinKeratin 8KeratinsThiazolidinesLamellipodiumEuropean journal of cell biology
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In vivo detection of cytokeratin filament network breakdown in cells treated with the phosphatase inhibitor okadaic acid.

2001

We have previously described vulva carcinoma-derived A-431 subclone AK13-1, which stably expresses fluorescently labeled cytokeratin filaments (CKFs). Time-lapse fluorescence microscopy of these cells permits the continuous monitoring of the dynamics of the CKF cytoskeleton in vivo. To study mechanisms and principles of CKF disassembly as it occurs, e.g., during mitosis and liver disease, we have treated cells with the phosphatase inhibitor okadaic acid (OA), which induces complete CKF network breakdown within 3–5 h without significantly affecting the organization of the actin- and tubulin-based cytofilaments. In time-lapse movies, we find that the network breakdown starts at the cell perip…

HistologyTime FactorsRecombinant Fusion ProteinsGreen Fluorescent ProteinsPathology and Forensic Medicinechemistry.chemical_compoundCytokeratinAdenosine TriphosphateStress FibersOkadaic AcidFluorescence microscopeTumor Cells CulturedHumansEnzyme InhibitorsPhosphorylationCytoskeletonMitosisActinCytoskeletonbiologyVulvar NeoplasmsEpithelial CellsCell BiologyOkadaic acidCell biologyCytoskeletal ProteinsLuminescent ProteinsTubulinchemistryDesmoplakinsMicroscopy FluorescenceCytoplasmbiology.proteinKeratinsFemaleIndicators and ReagentsCell and tissue research
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Immunohistochemical expression of apoptotic factors, cytokeratins, and metalloproteinase-9 in periapical and epithelialized gingival lesions

2012

Bellmann K, 2010, CELL STRESS CHAPERON, V15, P101, DOI 10.1007-s12192-009-0126-9; Cappello Francesco, 2011, Front Biosci (Schol Ed), V3, P341, DOI 10.2741-s155; Cappello F, 2006, CANCER, V107, P2417, DOI 10.1002-cncr.22265; Cappello F, 2002, EUR J HISTOCHEM, V46, P199; Carneiro E, 2009, ORAL SURG ORAL MED O, V107, P127, DOI 10.1016-j.tripleo.2008.07.030; Chandra D, 2007, J BIOL CHEM, V282, P31289, DOI 10.1074-jbc.M702777200; Fujita Y, 2011, ODONTOLOGY, V100, P215; Garcia Celia Carrillo, 2007, Med Oral Patol Oral Cir Bucal, V12, pE585; Garcia CC, 2009, ORAL SURG ORAL MED O, V107, pE43, DOI 10.1016-j.tripleo.2008.12.002; Gregory CD, 2011, J PATHOL, V223, P177, DOI 10.1002-path.2792; Gupta S, …

Histologybusiness.industryCaspase 3GingivaApoptosisGeneral MedicineMolecular biologyImmunohistochemistryCaspase 9EpitheliumPathology and Forensic MedicineCell stressMatrix Metalloproteinase 9cytokeratins MMP-9 caspase-3 caspase-9 perapical lesions epithelial gingival lesions apoptosisIHC PCNA TUNELProliferating Cell Nuclear AntigenMedicineHumansKeratinsbusinessApoptosis Regulatory ProteinsPeriapical Granuloma
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