Search results for "MAP Kinase Kinase 2"

showing 3 items of 3 documents

A role for the MAP kinase gene MKC1 in cell wall construction and morphological transitions in Candida albicans.

1998

The Candida albicans MKC1 gene encodes a mitogen-activated protein (MAP) kinase, which has been cloned by complementation of the lytic phenotype associated with Saccharomyces cerevisiae slt2 (mpk1) mutants. In this work, the physiological role of this MAP kinase in the pathogenic fungus C. albicans was characterized and a role for MKC1 in the biogenesis of the cell wall suggested based on the following criteria. First, C. albicans mkc1Δ/mkc1Δ strains displayed alterations in their cell surfaces under specific conditions as evidenced by scanning electron microscopy. Second, an increase in specific cell wall epitopes (O-glycosylated mannoprotein) was shown by confocal microscopy in mkc1Δ/mkc1…

Antifungal AgentsTranscription GeneticSaccharomyces cerevisiaeMutantMAP Kinase Kinase 2MAP Kinase Kinase 1ChitinSaccharomyces cerevisiaeProtein Serine-Threonine KinasesMicrobiologyGene Expression Regulation EnzymologicFungal ProteinsPseudohyphal growthCell WallGene Expression Regulation FungalCandida albicansCandida albicansDNA FungalFluorescent Antibody Technique IndirectGlucansProtein Kinase CMitogen-Activated Protein Kinase KinasesRecombination GeneticMembrane GlycoproteinsMicroscopy ConfocalbiologyKinaseProtein-Tyrosine Kinasesbiology.organism_classificationFlow Cytometrybeta-GalactosidaseCorpus albicansComplementationMicroscopy ElectronBiochemistryMitogen-activated protein kinaseCalcium-Calmodulin-Dependent Protein Kinasesbiology.proteinMicroscopy Electron ScanningMitogen-Activated Protein KinasesPlasmidsMicrobiology (Reading, England)

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Liver-specific p38α deficiency causes reduced cell growth and cytokinesis failure during chronic biliary cirrhosis in mice

2012

p38α mitogen-activated protein kinases (MAPK) may be essential in the up-regulation of proinflammatory cytokines and can be activated by transforming growth factor β, tumor necrosis factor-α, interleukin-1β, and oxidative stress. p38 MAPK activation results in hepatocyte growth arrest, whereas increased proliferation has been considered a hallmark of p38α-deficient cells. Our aim was to assess the role of p38α in the progression of biliary cirrhosis induced by chronic cholestasis as an experimental model of chronic inflammation associated with hepatocyte proliferation, apoptosis, oxidative stress, and fibrogenesis. Cholestasis was induced in wildtype and liver-specific p38α knockout mice by…

Malemedicine.medical_specialtyBiliary cirrhosisMAP Kinase Kinase 2ApoptosisBiologymedicine.disease_causeProinflammatory cytokineMitogen-Activated Protein Kinase 14MiceCholestasisInternal medicinemedicineAnimalsCyclin D1Cyclin B1Cell ProliferationCytokinesisMice KnockoutHepatologyLiver Cirrhosis BiliaryHepatologymedicine.diseaseMice Inbred C57BLSurvival RateDisease Models AnimalOxidative Stressmedicine.anatomical_structureEndocrinologyLiverHepatocyteChronic DiseaseDisease ProgressionHepatocytesTumor necrosis factor alphaOxidative stressSignal TransductionTransforming growth factorHepatology

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Integrative genomic and proteomic analyses identify targets for Lkb1 deficient metastatic lung tumors

2010

SummaryIn mice, Lkb1 deletion and activation of KrasG12D results in lung tumors with a high penetrance of lymph node and distant metastases. We analyzed these primary and metastatic de novo lung cancers with integrated genomic and proteomic profiles, and have identified gene and phosphoprotein signatures associated with Lkb1 loss and progression to invasive and metastatic lung tumors. These studies revealed that SRC is activated in Lkb1-deficient primary and metastatic lung tumors, and that the combined inhibition of SRC, PI3K, and MEK1/2 resulted in synergistic tumor regression. These studies demonstrate that integrated genomic and proteomic analyses can be used to identify signaling pathw…

ProteomicsCancer ResearchLung NeoplasmsMAP Kinase Kinase 2MAP Kinase Kinase 1CELLCYCLEAMP-Activated Protein Kinasesmedicine.disease_causeMice0302 clinical medicineAMP-Activated Protein Kinase KinasesCell MovementCarcinoma Non-Small-Cell LungEnzyme InhibitorsNeoplasm MetastasisPhosphorylationLymph nodePhosphoinositide-3 Kinase Inhibitors0303 health sciencesTOR Serine-Threonine KinasesIntracellular Signaling Peptides and ProteinsGenomicsCell cycleProtein-Tyrosine KinasesPenetrance3. Good healthUp-RegulationGene Expression Regulation Neoplasticmedicine.anatomical_structuresrc-Family KinasesOncologySIGNALING030220 oncology & carcinogenesisDrug Therapy CombinationFemaleRNA InterferenceKRASSignal TransductionMice NudeBiologyProtein Serine-Threonine KinasesArticleProto-Oncogene Proteins p21(ras)03 medical and health sciencesCell Line TumorProto-Oncogene ProteinsmedicineCell AdhesionAnimalsHumansEpithelial–mesenchymal transitionProtein Kinase Inhibitors030304 developmental biologyFocal AdhesionsGene Expression ProfilingCell BiologyXenograft Model Antitumor AssaysMice Mutant StrainsGene expression profilingFocal Adhesion Protein-Tyrosine KinasesCancer cellCell TransdifferentiationCancer researchras ProteinsCarcinogenesis

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