Search results for "Nitrosation"

showing 9 items of 19 documents

Role of oxidative and nitrosative stress biomarkers in chronic heart failure

2009

In this review, we present recent insights on chronic heart failure (CHF) and the potential role of tumor necrosis factor (TNF)-alpha, interleukins, myeloperoxidase (MPO), and nitrosative stress in the progression of this disease process. Reactive oxygen species (ROS) are produced as a consequence of aerobic metabolism. Under physiologic conditions, their unfavourable effect in causing oxidative damage is counteracted by antioxidants. An imbalance in favour of oxidants leads to oxidative stress, and contributes to myocyte apoptosis, direct negative inotropic effects, and reduced bioavailability of nitric oxide (NO). Together, these effects lead to impaired vasodilatation of the coronary, pu…

Nitrosative stress Oxidative Stress Endothelial Dysfunction ReviewEndotheliumNitrosationPharmacologymedicine.disease_causeNitric oxidechemistry.chemical_compoundNatriuretic Peptide BrainmedicineHumansEndothelial dysfunctionPeroxidaseHeart Failurechemistry.chemical_classificationReactive oxygen speciesbiologySettore BIO/16 - Anatomia Umanabusiness.industryNitrotyrosinemedicine.diseaseOxidative Stressmedicine.anatomical_structurechemistryHeart failureMyeloperoxidaseChronic Diseasebiology.proteinEndothelium VascularbusinessBiomarkersOxidative stressFrontiers in Bioscience

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Oxidative and nitrosative stress in the diaphragm of patients with COPD.

2007

COPD is associated with an increased load on the diaphragm. Since chronic muscle loading results in changes in antioxidant capacity and formation of reactive oxygen and reactive nitrogen species, we hypothesized that COPD has a similar effect on the diaphragm, which is related to the severity of COPD. Catalase activity was determined spectrophotometrically. Levels of 4-hydroxy-2-nonenal (HNE)-protein adducts and 3-nitrotyrosine (NT) formation were measured using western blotting. Levels of malondialdehyde (MDA) were assessed by high-performance liquid chromatography. We found that catalase activity was approximately 89% higher in the diaphragm of severe COPD patients (FEV1 37+/-5% predicted…

Pulmonary and Respiratory Medicinemedicine.medical_specialtyrespiratory musclesNitrosationDiaphragmOxidative phosphorylationmedicine.disease_causeSeverity of Illness IndexNOLipid peroxidationPulmonary Disease Chronic Obstructivechemistry.chemical_compoundInternal medicineHumansCOPDMedicineReactive nitrogen speciesOriginal ResearchCOPDoxidantsbiologybusiness.industryHealth PolicyPublic Health Environmental and Occupational HealthGeneral MedicineMiddle Agedmedicine.diseaseMalondialdehydeDiaphragm (structural system)Surgeryrespiratory tract diseasesOxidative StressantioxidantsEndocrinologychemistryCatalasebiology.proteinbusinessOxidative stressInternational journal of chronic obstructive pulmonary disease

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Chemical model systems for cellular nitros(yl)ation reactions.

2009

S-nitros(yl)ation belongs to the redox-based posttranslational modifications of proteins but the underlying chemistry is controversial. In contrast to current concepts involving the autoxidation of nitric oxide ( • NO, nitrogen monoxide), we and others have proposed the formation of peroxynitrite (oxoperoxonitrate (1-)) as an essential intermediate. This requires low cellular fluxes of 'NO and superoxide ( • O 2 - ), for which model systems have been introduced. We here propose two new systems for nitros(yl)ation that avoid the shortcomings of previous models. Based on the thermal decomposition of 3-morpholinosydnonimine, equal fluxes of • NO and • O 2 - were generated and modulated by the …

StereochemistrySwineNitrosationIn Vitro TechniquesPhotochemistryNitric OxideBiochemistryRedoxArticlechemistry.chemical_compoundElectrophilic substitutionPhysiology (medical)Peroxynitrous AcidAnimalsAutoxidationPhenolNitrosoniumSuperoxideSuperoxide DismutaseGlutathioneIsocitrate DehydrogenasePeroxynitrous acidchemistryModels ChemicalMolsidomineNitrosationCattlePeroxynitriteFree radical biologymedicine

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Regulation of Human Mitochondrial Aldehyde Dehydrogenase (ALDH-2) Activity by Electrophiles in Vitro

2011

Recently, mitochondrial aldehyde dehydrogenase (ALDH-2) was reported to reduce ischemic damage in an experimental myocardial infarction model. ALDH-2 activity is redox-sensitive. Therefore, we here compared effects of various electrophiles (organic nitrates, reactive fatty acid metabolites, or oxidants) on the activity of ALDH-2 with special emphasis on organic nitrate-induced inactivation of the enzyme, the biochemical correlate of nitrate tolerance. Recombinant human ALDH-2 was overexpressed in Escherichia coli; activity was determined with an HPLC-based assay, and reactive oxygen and nitrogen species formation was determined by chemiluminescence, fluorescence, protein tyrosine nitration,…

Thioredoxin reductaseAldehyde dehydrogenaseNitric Oxidemedicine.disease_causeBiochemistryNitric oxideMitochondrial Proteinschemistry.chemical_compoundmedicineHumansEnzyme InhibitorsMolecular BiologybiologyAldehyde Dehydrogenase MitochondrialMolecular Bases of DiseaseHydrogen PeroxideCell BiologyAldehyde DehydrogenaseRecombinant ProteinsEnzyme assaychemistryBiochemistryNitrosationbiology.proteinThioredoxinPeroxynitriteOxidative stressJournal of Biological Chemistry

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Identification and functional characterization of S-nitrosated proteins from Klebsormidium nitens, a model alga to study plant adaptation to land

2022

The small gaseous molecule nitric oxide (NO) is well established as a major ubiquitous component of cell signalling. A key signalling mechanism mediating NO effects is S-nitrosation, a post-translational modification by which NO can impact the target protein activities, subcellular localizations, and capacities to form protein complexes. The identification of proteins targeted by NO is of major interest in order to elucidate NO functions. Interestingly, land plants lack NO synthase (NOS), which is the main enzyme for NO synthesis in metazoans, while a few algal species possess it, thus raising many interrogations. Therefore, we focused on the identification of S-nitrosated proteins during s…

algaebiotin switch[SDV] Life Sciences [q-bio]abiotic stressnitric oxideS-nitrosationmass spectrometry

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Identification and functional characterization of S-nitrosated proteins from Klebsormidium nitens in response to salt stress

2023

The small gaseous molecule nitric oxide (NO) is well established as a major ubiquitouscomponent of cell signalling. A key signalling mechanism mediating NO effects is Snitrosation, a post-translational modification by which NO can impact the target proteinactivities, subcellular localizations, and capacities to form protein complexes. The identificationof proteins targeted by NO is of major interest in order to elucidate NO functions. Interestingly,land plants lack NO synthase (NOS), which is the main enzyme for NO synthesis in metazoans,while a few algal species possess it, thus raising many interrogations. Therefore, we focused onthe identification of S-nitrosated proteins during salt str…

algaebiotin switch[SDV] Life Sciences [q-bio]abiotic stressnitric oxideS-nitrosationmass spectrometry

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ChemInform Abstract: ortho Effect on the Nitrosation of the 2,3-Diphenyl-5-(2-methoxyphenyl)pyrrole.

1990

A comparison of the behaviour on the nitrosation of the isomers 5-(2-methoxyphenyl)- (1a) 5-(3-methoxyphenyl)- (1b) and 5-(4-methoxyphenyl)2,3-diphenylpyrroles (1c) carried out in the usual way with iso-amyl nitrite in a solution of sodium ethoxide in ethanol evidences that 1a is dramatically less reactive with respect to 1b and 1c. The different reactivity was ascribed to the occurrence of a strong hydrogen bond involving pyrrole NH and the ortho-methoxy group.

chemistry.chemical_compoundEthanolSodium ethoxidechemistryHydrogen bondNitrosationReactivity (chemistry)General MedicineNitriteMedicinal chemistryPyrroleChemInform

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orthoeffect on the nitrosation of the 2,3-diphenyl-5(2-methoxyphenyl)pyrrole

1990

chemistry.chemical_compoundEthanolSodium ethoxidechemistryHydrogen bondOrganic ChemistryNitrosationOrganic chemistryReactivity (chemistry)NitriteMedicinal chemistryPyrroleJournal of Heterocyclic Chemistry

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Nitrate and nitrite in the diet: How to assess their benefit and risk for human health

2015

Nitrate is a natural constituent of the human diet and an approved food additive. It can be partially converted to nitrogen monoxide, which induces vasodilation and thereby decreases blood pressure. This effect is associated with a reduced risk regarding cardiovascular disease, myocardial infarction, and stroke. Moreover, dietary nitrate has been associated with beneficial effects in patients with gastric ulcer, renal failure, or metabolic syndrome. Recent studies indicate that such beneficial health effects due to dietary nitrate may be achievable at intake levels resulting from the daily consumption of nitrate-rich vegetables. N-nitroso compounds are endogenously formed in humans. However…

risk analysisNitriteischemia-reperfusion injuryPhysiologyBenefitNitric OxideToxicologyNitratereduces blood-pressureNitric oxidechemistry.chemical_compoundNitrateRisk FactorsNeoplasmsVegetablesmedicineAnimalsHumansfluke opisthorchis-viverriniNitritenih-aarp dietNitritesToxicologiecolorectal-cancer riskCarcinogenRandomized Controlled Trials as TopicVLAGNitratesChemistryN-nitroso compoundsmedicine.diseasenitrosatable drug exposureDietMeat ProductsDisease Models Animaln-nitroso compoundsBlood pressureBiochemistryNitrosationMetabolic syndromecoronary-heart-diseaseRisk assessmentBiomarkersNitroso Compoundsinorganic nitrateneural-tube defectsFood ScienceBiotechnology

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