Search results for "Reductases"

showing 6 items of 276 documents

Progestogens reduce thromboxane production by cultured human endothelial cells.

2011

Objectives Progestogens have been poorly studied concerning their roles in endothelial physiology. Prostanoids are vasoactive compounds, such as thromboxane A2, a potent vasoconstrictor, and prostacyclin, a vasodilator. We examined the effects of two progestogens used clinically, progesterone and medroxyprogesterone acetate, on thromboxane A2 production by cultured human umbilical vein endothelial cells (HUVEC) and investigated the role of progesterone receptors and the enzymes involved in production of thromboxane A2 and prostacyclin. Methods Cells were exposed to 1‐100 nmol/l of either progesterone or medroxyprogesterone acetate, and thromboxane A2 production was measured in culture mediu…

medicine.medical_specialtyUmbilical VeinsAntineoplastic Agents HormonalThromboxaneBlotting WesternGene ExpressionProstacyclinMedroxyprogesterone AcetatePolymerase Chain ReactionProstacyclin synthaseThromboxane receptorThromboxane ProductionThromboxane A2chemistry.chemical_compoundThromboxane A2Hormone AntagonistsCytochrome P-450 Enzyme SystemInternal medicineProgesterone receptorMedicineHumansCyclooxygenase InhibitorsRNA MessengerCells CulturedProgesteronebiologyDose-Response Relationship Drugbusiness.industryObstetrics and GynecologyEndothelial CellsGeneral MedicineIntramolecular OxidoreductasesThromboxane B2MifepristoneEndocrinologychemistrycardiovascular systembiology.proteinPyrazolesThromboxane-A synthaseThromboxane-A SynthaseProgestinsbusinessmedicine.drugClimacteric : the journal of the International Menopause Society
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Role of the cyclic AMP-dependent pathway in free radical-induced cholesterol accumulation in vascular smooth muscle cells.

2000

We have previously reported that free radical-treated vascular smooth muscle cells (SMC) lead to cholesterol accumulation in vitro. In the current study, we investigated the effects of oxidative stress on cyclic AMP concentration and cAMP-dependent enzymes involved in cholesterol homeostasis in A7r5 cells. Under our conditions of a mild oxidative stress, namely with no change in cell viability, we found that free radicals, initiated using azobis-amidinopropane dihydrochloride (AAPH), resulted in a dose-dependent decrease in cellular cAMP which was opposed by vitamin E preincubation. Although the addition of adenylate cyclase activators (carbacyclin and forskolin) increased cAMP levels it di…

medicine.medical_specialtyVascular smooth muscleFree RadicalsSterol O-acyltransferaseAmidinesAdenylate kinaseOxidative phosphorylationmedicine.disease_causeBiochemistryMuscle Smooth VascularCell Linechemistry.chemical_compoundPhysiology (medical)Internal medicineProstaglandins SyntheticmedicineCyclic AMPAnimalsAortaForskolinbiologyCholesterolCell MembraneFatty AcidsOxidantsEpoprostenolCell biologyRatsOxidative StressEndocrinologyCholesterolchemistryBucladesineHMG-CoA reductasebiology.proteinHydroxymethylglutaryl CoA ReductasesCardiology and Cardiovascular MedicineCyclase activityOxidative stressAdenylyl CyclasesSterol O-AcyltransferaseFree radical biologymedicine
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Vasoactive intestinal peptide stimulation of cyclic guanosine monophosphate formation: further evidence for a role of nitric oxide synthase and cytos…

1993

In the rat pineal gland vasoactive intestinal peptide (VIP) and beta-adrenergic agonists stimulate cyclic guanosine monophosphate (cGMP) formation and their action is amplified by alpha 1-adrenergic agonists. Since beta-adrenergic stimulation of cGMP is suggested to involve activation of nitric oxide (NO) synthase and NO-mediated activation of cytosolic guanylate cyclase (GC), we investigated the effects of the NO synthase inhibitor N-monomethyl-L-arginine (L-NMMA) and of the cytosolic GC inhibitor methylene blue (MB) on VIP receptor-stimulated cGMP formation. Both L-NMMA and MB depressed VIP-induced cGMP formation as well as alpha 1-adrenergic potentiation of VIP-stimulated cGMP formation …

medicine.medical_specialtyVasoactive intestinal peptideArgininePineal GlandPinealocyteNitric oxidechemistry.chemical_compoundPhenylephrineEndocrinologyCytosolInternal medicinemedicineAnimalsCyclic guanosine monophosphateCyclic GMPomega-N-MethylarginineATP synthasebiologyDrug SynergismRatsNitric oxide synthaseMethylene BlueEndocrinologychemistryGuanylate CyclaseSecond messenger systembiology.proteinOmega-N-MethylarginineAmino Acid OxidoreductasesNitric Oxide Synthasehormones hormone substitutes and hormone antagonistsVasoactive Intestinal PeptideEndocrinology
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α-HYDROXYBUTYRIC DEHYDROGENASE IN THE DIAGNOSIS OF MYOCARDIAL INFARCTION

1962

medicine.medical_specialtybusiness.industryMyocardial InfarctionElectrocardiography in myocardial infarctionDehydrogenaseGeneral Medicinemedicine.diseaseCardiovascular DiseasesInternal medicinemedicineCardiologyHumansMyocardial infarctionOxidoreductasesbusinessAgedThe Lancet
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Physical inactivity increases oxidative stress, endothelial dysfunction, and atherosclerosis.

2005

Objective— Sedentary lifestyle is associated with increased cardiovascular events. The underlying molecular mechanisms are incompletely understood. Reactive oxygen species (ROS) contribute to endothelial dysfunction and atherosclerosis. An important source of vascular ROS is the NADPH oxidase. Methods and Results— C57BL6 mice were subjected to regular housing (physical inactivity) or voluntary training on running wheels (6 weeks). Inactivity increased vascular lipid peroxidation to 148±9% and upregulated superoxide release to 176±17% (L-012 chemiluminescence) and 188±29% (cytochrome C reduction assay), respectively. ROS production was predominantly increased in the endothelium and the medi…

rac1 GTP-Binding Proteinmedicine.medical_specialtyEndotheliumNitric Oxide Synthase Type IIIArteriosclerosisNitric Oxide Synthase Type IIBiologymedicine.disease_causechemistry.chemical_compoundMiceApolipoproteins EInternal medicinePhysical Conditioning AnimalmedicineAnimalsNADH NADPH OxidoreductasesRNA MessengerEndothelial dysfunctionLife Stylechemistry.chemical_classificationReactive oxygen speciesNADPH oxidaseSuperoxideNeuropeptidesNADPH Oxidase 1NADPH Oxidasesmedicine.diseasePhosphoproteinsMice Mutant Strainsrac GTP-Binding ProteinsMice Inbred C57BLVasodilationOxidative Stressmedicine.anatomical_structureEndocrinologychemistryNOX1biology.proteinNADPH Oxidase 1Endothelium VascularNitric Oxide SynthaseCardiology and Cardiovascular MedicineReactive Oxygen SpeciesOxidative stressArteriosclerosis, thrombosis, and vascular biology
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Protein tyrosine nitration and thiol oxidation by peroxynitrite-strategies to prevent these oxidative modifications.

2013

The reaction product of nitric oxide and superoxide, peroxynitrite, is a potent biological oxidant. The most important oxidative protein modifications described for peroxynitrite are cysteine-thiol oxidation and tyrosine nitration. We have previously demonstrated that intrinsic heme-thiolate (P450)-dependent enzymatic catalysis increases the nitration of tyrosine 430 in prostacyclin synthase and results in loss of activity which contributes to endothelial dysfunction. We here report the sensitive peroxynitrite-dependent nitration of an over-expressed and partially purified human prostacyclin synthase (3.3 μM) with an EC50 value of 5 μM. Microsomal thiols in these preparations effectively co…

thiol oxidationprotein tyrosine nitrationlcsh:Chemistrychemistry.chemical_compoundCytochrome P-450 Enzyme SystemSf9 CellsTyrosinelcsh:QH301-705.5Spectroscopychemistry.chemical_classification0303 health sciencesbiologySuperoxide030302 biochemistry & molecular biologyGeneral MedicineComputer Science ApplicationsIntramolecular OxidoreductasesBiochemistryThiolprostacyclin synthasesuperoxideOxidation-ReductionPeroxynitriteOxidative phosphorylationSpodopteraCatalysisArticleperoxynitriteNitric oxideProstacyclin synthaseInorganic Chemistry03 medical and health sciencesnitric oxideddc:570NitrationPeroxynitrous AcidAnimalsHumansSulfhydryl CompoundsPhysical and Theoretical ChemistryMolecular Biology030304 developmental biologyOrganic Chemistrynitric oxide; superoxide; peroxynitrite; protein tyrosine nitration; thiol oxidation; peroxynitrite scavengers; prostacyclin synthasechemistrylcsh:Biology (General)lcsh:QD1-999biology.proteinTyrosineCattleperoxynitrite scavengersProtein Processing Post-TranslationalInternational journal of molecular sciences
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