0000000000849206

AUTHOR

Dominic Fenske

showing 4 related works from this author

Enzymatically modified nonoxidized low-density lipoprotein induces interleukin-8 in human endothelial cells: role of free fatty acids.

2002

Background— Treatment of low-density lipoprotein (LDL) with a protease and cholesterolesterase transforms the lipoprotein to an entity that resembles lipoprotein particles in atherosclerotic lesions, which have a high content of free cholesterol, reflecting extensive de-esterification in the intima. Because de-esterification would occur beneath the endothelium, we examined the effects of enzymatically modified LDL (E-LDL) on cultured endothelial cells. Methods and Results— Incubation of endothelial cells with E-LDL provoked selective accumulation of interleukin (IL)-8 mRNA and production of the cytokine. Chemical analyses and depletion experiments indicated that the effect was caused by th…

Very low-density lipoproteinLow-density lipoprotein receptor-related protein 8EndotheliumNuclease Protection AssaysBiologychemistry.chemical_compoundPhysiology (medical)medicineHumansTrypsinInterleukin 8RNA MessengerCells CulturedIntermediate-density lipoproteinFatty AcidsInterleukin-8InterleukinBiological TransportSterol EsteraseMolecular biologyLipoproteins LDLmedicine.anatomical_structureBiochemistrychemistryGene Expression RegulationLow-density lipoproteinlipids (amino acids peptides and proteins)Cholesterol EstersEndothelium VascularCardiology and Cardiovascular MedicineOxidation-ReductionLipoproteinCirculation
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Enzymatically hydrolyzed low-density lipoprotein modulates inflammatory responses in endothelial cells

2009

SummaryThere is evidence that low-density lipoprotein (LDL) is modified by hydrolytic enzymes,and that the product (E-LDL) induces selective production of interleukin 8 (IL-8) in endothelial cells. Since nuclear factor-kappaB (NF-κB) is a major regulator of IL-8 transcription, we studied its activation in endothelial cells treated with E-LDL. Unexpectedly,the modified lipoprotein not only failed to activate NF-κB, but completely blocked its activation by tumour necrosis factor-alpha (TNF-α) in EA.hy926-cells, as assessed by electrophoretic mobility shift assays and immunofluorescence. Inhibition occurred upstream of NF-κB translocation, as inhibitor of NF-κB- (IκB)-phosphorylation was suppr…

Time FactorsProto-Oncogene Proteins c-junPyridinesmedicine.medical_treatmentFatty Acids NonesterifiedBiologyp38 Mitogen-Activated Protein KinasesCell Linechemistry.chemical_compoundNF-KappaB Inhibitor alphamedicineHumansTrypsinInterleukin 8PhosphorylationPromoter Regions GeneticProtein Kinase InhibitorsTranscription factorInflammationTumor Necrosis Factor-alphaActivator (genetics)HydrolysisInterleukin-8ImidazolesTranscription Factor RelAEndothelial CellsNF-κBHematologySterol EsteraseMolecular biologyLipoproteins LDLTranscription Factor AP-1Endothelial stem cellCytokineBiochemistrychemistryLow-density lipoproteinI-kappa B ProteinsLipoproteinThrombosis and Haemostasis
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Resealing of large transmembrane pores produced by streptolysin O in nucleated cells is accompanied by NF‐κB activation and downstream events

2001

Streptolysin O (SLO), archetype of a cholesterol-binding bacterial cytolysin, forms large pores in the plasma membrane of mammalian cells. We have recently reported that when a limited number of pores are generated in a cell, they can be sealed in a Ca++-dependent process. Here, we show that resealing is followed by the release of IL-6 and IL-8 from keratinocytes and from endothelial cells, both relevant targets for SLO attack. Production of cytokines by these cells was preceded by activation of transcription factor nuclear factor kappaB, which thus emerges as a common denominator of stress responses to various pore-forming agents, including alpha-toxin of Staphylococcus aureus and compleme…

KeratinocytesCell Membrane PermeabilityTime FactorsBiologyBiochemistryCell LineAdenosine TriphosphateBacterial ProteinsNucleated cellGeneticsHumansInterleukin 8Molecular BiologyMicrobial toxinsMembrane permeabilizationDose-Response Relationship Drugintegumentary systemInterleukin-6Interleukin-8NF-kappa BTransmembrane proteinCell biologyStreptolysinsStreptolysinEndothelium VascularNf κb activationBiotechnologyThe FASEB Journal
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Enzymatically modified LDL induces cathepsin H in human monocytes: potential relevance in early atherogenesis.

2003

Objective—Modification with proteases and cholesterylesterase transforms LDL to a moiety that resembles lipoproteins isolated from atherosclerotic lesions and possesses atherogenic properties. To identify changes in monocyte-derived foam cells laden with enzymatically modified LDL (E-LDL), we compared patterns of the most abundant transcripts in these cells after incubation with LDL or E-LDL.Methods and Results—Serial analyses of gene expression (SAGE) libraries were constructed from human monocytes after treatment with LDL or E-LDL. Several tags were differentially expressed in LDL-treated versus E-LDL–treated cells, whereby marked selective induction by E-LDL of cathepsin H was conspicuou…

ProteasesCathepsin HCoronary Artery DiseaseBiologyCathepsin HCathepsin L1medicineMacrophageHumansFoam cellGene LibraryCathepsinMonocyteGene Expression ProfilingColocalizationSterol EsteraseMolecular biologyCathepsinsLipoproteins LDLCysteine Endopeptidasesmedicine.anatomical_structureCholesterolBiochemistryGene Expression Regulationlipids (amino acids peptides and proteins)Cardiology and Cardiovascular MedicineFoam CellsArteriosclerosis, thrombosis, and vascular biology
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