Margaret M. Tarpey scite author profile

Oxidation of lipoproteins is important for the initiation and propagation of the atherosclerotic lesion and may involve secondary oxidants derived from nitric oxide. Nitric oxide (NO) reacts at near diffusion limited rates with superoxide (O2-.) to form the strong oxidant, peroxynitrite (ONOO-). Nitration on the ortho position of tyrosine is a major product of peroxynitrite attack on proteins. Nitrotyrosine was detected in atherosclerotic lesions of formalin-fixed human coronary arteries with polyclonal and monoclonal antibodies. Binding was pronounced in and around foamy macrophages within the atheroma deposits. Nitration was also observed in early subintimal fatty streaks. Antibody binding was completely blocked by co-incubation with 10mM nitrotyrosine, but not by equivalent concentrations of aminotyrosine or phosphotyrosine. The presence of nitrotyrosine indicates that oxidants derived from nitric oxide such as peroxynitrite are generated in human atherosclerosis and may be involved in its pathogenesis.

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Role of Superoxide in Angiotensin II–Induced but Not Catecholamine-Induced Hypertension

Laursen

Rajagopalan²,

Galis³

et al. 1997

Circulation

755

542

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Evidence for enhanced vascular superoxide anion production in nitrate tolerance. A novel mechanism underlying tolerance and cross-tolerance.

Münzel

Sayegh²,

Freeman³

et al. 1995

J. Clin. Invest.

620

436

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We sought to examine mechanisms underlying nitroglycerin (NTG) tolerance and "cross-tolerance" to other nitrovasodilators. Rabbits were treated for 3 d with NTG patches (0.4 mg/h) and their aortic segments studied in organ chambers. Relaxations were examined after preconstriction with phenylephrine. In NTG tolerant rabbit aorta, relaxations to cGMP-dependent vasodilators such as NTG (45±6%), SIN-1 (69±7%), and acetylcholine (ACh, 64±5%) were attenuated vs. controls, (90±2, 94±3, and 89±2% respectively, P < 0.05 for all), while responses to the cAMP-dependent vasodilator forskolin remained unchanged. In tolerant aorta, endothelial removal markedly enhanced relaxations to NTG and SIN-1 (82±4 and 95±3%, respectively). Other studies were performed to determine how the endothelium enhances tolerance. Vascular steady state°2 levels (assessed by lucigenin chemiluminescence) was increased twofold in tolerant vs. control vessels with endothelium (0.31±0.01 vs. 0.61±0.01 nmol/mg per minute). This difference was less in vessels after denudation of the endothelium. Diphenylene iodonium, an inhibitor of flavoprotein containing oxidases, and Tiron a direct°2 scavenger normalized 0°levels. In contrast, oxypurinol (1 mM) an inhibitor of xanthine oxidase, rotenone (50 pM) an inhibitor of mitochondrial electron transport and NG-nitro-L-arginine (100 pmM) an inhibitor of nitric oxide synthase did not affect the chemiluminescence signals from NTG-tolerant aortas. Pretreatment of tolerant aorta with liposome-entrapped, pH sensitive superoxide dismutase (600 U/ml) significantly enhanced maximal relaxation in response to NTG, SIN-1, and ACh, and effectively reduced chemiluminescence signals. These studies show that continuous NTG treatment is associated with increased vascular 0--production and consequent inhibition of NO' mediated vasorelaxation produced by both exogenous and endogenous nitrovasodilators. (J. Clin. Invest. 1995. 95:187-194.) Key words: SIN-1 * lucigenin diphenylene iodonium -liposomal entrapped superoxide dismutase

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Methods for detection of reactive metabolites of oxygen and nitrogen: in vitro and in vivo considerations

Tarpey

Wink²,

Grisham³

2004

American Journal of Physiology-Regulatory, Integrative and Comp

589

407

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Facile detection of reactive oxygen and nitrogen species in biologic systems is often problematic. This is a result of the numerous cellular mechanisms, both enzymatic and nonenzymatic involved in their catabolism/decomposition, the complex and overlapping nature of their reactivities, as well as the often limited intracellular access of detector systems. This review describes approaches to the direct and indirect measurement of different reactive metabolites of oxygen and nitrogen. Particular attention to a method's applicability for in vivo determinations will be addressed.

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