Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.15.1.1 (superoxide dismutase)
 58,858 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxidation of low density lipoprotein (LDL) has been shown to occur in the artery wall of atherosclerotic lesions in both animal models and human arteries. The oxidant(s) responsible for initiating this process are under intensive investigation and 15-lipoxygenase has been suggested in this context. Another possibility is that nitric oxide and superoxide, generated by cells present in the artery wall, react together to form peroxynitrite which decomposes to form the highly reactive hydroxyl radical. In the present study we have modelled the simultaneous generation of superoxide and nitric oxide by using the sydnonimine, SIN-1 and have investigated its effects on LDL. SIN-1 liberates both superoxide and nitric oxide during autooxidation resulting in the formation of hydroxyl radicals. We have demonstrated that superoxide generated by SIN-1 is not available to take part in a dismutation reaction since it reacts preferentially with nitric oxide. It follows, therefore, that during the autooxidation of SIN-1 little or no superoxide, or perhydroxyl radical will be available to initiate lipid peroxidation. We have shown that SIN-1 is capable of initiating the peroxidation of LDL and also converts the lipoprotein to a more negatively charged form. The SIN-1-dependent peroxidation of LDL is completely inhibited by superoxide dismutase which scavenges superoxide. Neither sodium nitroprusside or S-nitroso-N-acetyl penicillamine, which only produce nitric oxide, are able to modify LDL. These results are consistent with the hypothesis that a product of superoxide and nitric oxide could oxidize lipoproteins in the artery wall and so contribute to the pathogenesis of atherosclerosis in vivo.
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PMID:The simultaneous generation of superoxide and nitric oxide can initiate lipid peroxidation in human low density lipoprotein. 133 19

Low density lipoprotein (LDL) oxidation mediated by phorbol myristate acetate (PMA)- and formylmethionylleucylphenylalanine (FMLP) -stimulated human neutrophils was enhanced by 70% in the presence of ferritin. Iron released from ferritin by the superoxide anion generated in the respiratory burst of stimulated neutrophils is shown to be involved in lipoprotein oxidation. Ascorbate (100 microM), superoxide dismutase (10 micrograms/ml) and uric acid (430 microM) showed inhibitory effects of 30% [corrected], 70% and 50% on LDL oxidation, respectively. Ceruloplasmin (2.7 microM) potentiated LDL oxidation by stimulated neutrophils and ferritin, both alone and in the presence of methionine. Methionine (1 mM) and catalase (30 micrograms/ml) increased LDL oxidation by stimulated neutrophils and ferritin. These data suggest that LDL oxidation by stimulated neutrophils and ferritin may be relevant in inflammation when both neutrophils and ferritin are increased.
Atherosclerosis 1992 Dec
PMID:Low density lipoprotein oxidation by stimulated neutrophils and ferritin. 133 54

Plasma lipid peroxidation, activity of erythrocyte superoxide dismutase (SOD) and catalase, and serum antioxidant activity (AOA) in uremic patients were examined before and after hemodialysis. An increased level of lipid peroxidation, a decreased serum AOA level, and elevated SOD and normal catalase activity before hemodialysis were observed in uremic patients compared with controls. Hemodialysis was found to produce increased lipid peroxidation, a simultaneous decrease of SOD activity, and lack of any changes in serum AOA and erythrocyte catalase. It is suggested that intensification of lipid peroxidation during hemodialysis could account for accelerated progress of atherosclerosis in patients with renal insufficiency.
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PMID:Effect of hemodialysis on lipid peroxidation and antioxidant system in patients with chronic renal failure. 143 96

To elucidate the role of oxygen free radicals and lipid peroxidation in the pathogenesis of early hypertension and atherosclerosis, we studied the native distribution of three primary arterial antioxidant enzymes (AEs). Specific immunohistochemical localization of superoxide dismutase (Cu-Zn SOD), glutathione peroxidase (GSH-Px), and catalase (CAT) was examined in the arterial wall of New Zealand White rabbits: six sham-operated normotensive/normolipidemics (NT/NL), seven coarctation-induced hypertensive/normolipidemics (HT/NL), eight normotensive diet-induced hyperlipidemics (NT/HL), and six hypertensive/hyperlipidemics (HT/HL). All three AEs were confined primarily to the endothelium in NT/NL rabbit aortas. However, in HT and HL rabbits a greater proportion of the arterial wall, including the endothelium, inner media, and middle media, displayed immunolocalization of three AEs. Multiple linear-regression analysis revealed that more than 70% of the total variability in the depth of immunolocalization of arterial AEs could be explained by changes in blood pressure and/or total cholesterol. Also, levels of plasma and arterial cholesterol oxides were significantly different (p less than 0.05) in HT and HL rabbits compared with controls, with twofold increases in NT/HLs, threefold increases in HT/NLs, and fourfold increases in HT/HLs. We conclude that intense free-radical activity in the arterial wall of HT and HL animals is one possibility and that this occurs despite the presence of abundant AEs.
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PMID:Immunolocalization of native antioxidant scavenger enzymes in early hypertensive and atherosclerotic arteries. Role of oxygen free radicals. 155 32

Oxidation and scavenger receptor-mediated uptake of low density lipoprotein (LDL) in intimal macrophages are believed to be key events in the development of atherosclerosis. We report here that oxidized LDL increases DNA synthesis, expression of HLA-DR, and interleukin-2 receptors in T cells. The stimulatory effect of oxidized LDL was not due to a direct effect on T cells but required the presence of monocytes. Oxidized LDL also stimulated the release of interleukin-1 beta from monocytes. The maximal effect of oxidized LDL on T-cell activation and interleukin-1 beta release occurred at a concentration of 1 micrograms/ml. Native LDL also had the capacity to activate T cells, although only at higher concentrations. The stimulatory effect of both native and oxidized LDL was inhibited by superoxide dismutase. Monocytes as well as T cells were found to have the ability to oxidize LDL, suggesting that the stimulatory effect of native LDL may arise as a result of LDL oxidation during incubation with monocytes and T cells. The results suggest that oxidized LDL may activate T cells in atherosclerotic lesions.
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PMID:Induction of T-cell activation by oxidized low density lipoprotein. 155 37

Low density lipoprotein modified by oxidation (Ox-LDL) causes adhesion of leukocytes to the endothelium, a feature common in early atherogenesis. Because leukocyte adhesion under various pathophysiological conditions involves superoxide generation, we explored the possibility that superoxide is likewise involved in leukocyte adhesion in response to Ox-LDL. For our studies, we used the dorsal skin fold chamber model for intravital microscopic observation of leukocyte-endothelium interactions in hamsters. We show here that injection of human LDL (4 mg/kg LDL cholesterol oxidatively modified by incubation in 7.5 microM Cu2+ for 18 hours at 37 degrees C) elicited in control hamsters (n = 7) the rolling and adhesion of circulating leukocytes along the endothelium of arterioles and postcapillary venules. This adhesion was significantly attenuated when hamsters were pretreated with bovine copper-zinc-superoxide dismutase (CuZn-SOD, 0.25 mg/kg, n = 7) or heparin (2,000 IU/kg, n = 7). The CuZn-SOD infusion and the heparin-induced release of extracellular SOD from endothelial cell surfaces to plasma resulted in nearly equal plasma SOD activities. Further inhibition of Ox-LDL-induced leukocyte adhesion could not be achieved by increasing the dose of CuZn-SOD to 5 mg/kg (n = 6). Pretreatment of the hamsters with inactivated CuZn-SOD showed no effect. These results indicate that Ox-LDL stimulates leukocyte adhesion through a superoxide-dependent step, and they indicate a possible mechanism by which antioxidants might inhibit the onset of experimental and clinical atherosclerosis.
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PMID:Superoxide-dependent stimulation of leukocyte adhesion by oxidatively modified LDL in vivo. 161 7

Lipid peroxidation and the antioxidant status were studied in male patients having stable angina (SA) and unstable angina (UA) pectoris and the results were compared with that of controls. Lipid peroxides (LPx) and conjugated dienes (CD) were found to be elevated in patients with both SA (LPx: 3.96 +/- 1.07, P less than 0.001; CD: 357.09 +/- 66.23, P less than 0.01) and UA (LPx: 4.66 +/- 1.33, CD: 373.33 +/- 49.82, P less than 0.001) than in controls (LPx: 3.22 +/- 0.86, CD: 335.15 +/- 60.27). In SA, the erythrocytes expressed a diminished activity of superoxide dismutase (SOD) (SA: 435.59 +/- 76.02, control: 651.69 +/- 145.90, P less than 0.001) and normal activities of catalase and glutathione peroxidase, whereas in UA it showed enhanced activities of both SOD (UA: 735.72 +/- 145.67, P less than 0.01) and catalase (UA: 21.94 +/- 6.26, control: 18.69 +/- 6.37, P less than 0.01). A significant increase was also noticed in the levels of ceruloplasmin and vitamin E during both types of angina, but not alteration was observed in the levels of transferrin. Further, the patients with diabetes showed maximum levels of lipid peroxides compared to smokers and hypertensives. The level of lipid peroxides was also observed to increase with the severity of disease. This study indicates that free radicals are involved in the pathogenesis and progression of atherosclerotic heart disease.
Atherosclerosis 1992 Jun
PMID:Antioxidant status in relation to free radical production during stable and unstable anginal syndromes. 163 72

Attenuation of acetylcholine-induced endothelium-dependent relaxation of thoracic aortas excised from Watanabe heritable hyperlipidemic (WHHL) rabbits linearly correlated with the percent area coated with atheromatous plaque. To elucidate mechanisms related to this reduced endothelium-dependent relaxation in the presence of atherosclerosis, the acetylcholine-induced release of endothelium-derived relaxing factor (EDRF) was assessed functionally as a percent relaxation of the precontracted detector strips obtained from the tunica media beneath the intact intima or the atheromatous plaque in the same aortic ring preparation. Relaxations of the normal detectors to effluents containing EDRF of thoracic aortas during stimulation by acetylcholine (3 x 10(-6) M) in heterozygous and homozygous WHHL rabbits were 73 +/- 5% and 59 +/- 9% (p less than 0.01) of the phenylephrine-induced precontraction, respectively. Relaxations of the atherosclerotic detectors to effluents (EDRF) through the aortas during stimulation by acetylcholine (3 x 10(-6) M) in heterozygous and homozygous WHHL rabbits were 16 +/- 4% and 14 +/- 5%, respectively--values significantly smaller than those seen in the normal detectors. When superoxide dismutase was added to the perfusate of the donors from homozygous and heterozygous WHHL rabbits, atherosclerotic detectors relaxed by effluents stimulated by acetylcholine to 73% and 65% (p less than 0.01 versus before the addition of superoxide dismutase) of the normal detector, respectively. Relaxations induced by sodium nitroprusside as well as the contractions by acetylcholine, phenylephrine, and KCl (118 mM) were comparable in detector strips from the normal and atherosclerotic portions. Thus, not only is the amount of EDRF released by acetylcholine reduced in the presence of atherosclerosis, the tunica media beneath the atheromatous plaque is also to some extent responsible for the superoxide-induced inactivation of EDRF.
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PMID:Putative mechanisms of the impairment of endothelium-dependent relaxation of the aorta with atheromatous plaque in heritable hyperlipidemic rabbits. 199 41

The biochemical mechanisms by which hypertension accelerates atherosclerosis and increases the risk of aortic aneurysm rupture are poorly understood. This study evaluates the effects of hypertension on aortic trace element concentrations and antioxidant status in tissue removed from 26 normotensive (NT) and 20 hypertensive (HT) patients. Twenty-seven of 46 patients (59%) had aneurysmal (AA), and 19 of 46 (41%) had occlusive disease (OD). Aortic iron concentrations were markedly higher in both OD and AA tissue compared with controls. A similar trend was observed with copper concentrations, with the highest elevations observed in HT AA tissues. No significant differences were observed in zinc concentrations, except that HT AA aorta had significantly lower zinc levels than either OD or control tissue. Aortic ascorbic acid concentrations in diseased aorta were lower than those of controls, but independent of blood pressure. Copper-zinc-superoxide dismutase activity was similarly reduced, with the lowest activity observed in diseased aorta from HT patients. Only HT AA aorta had significantly higher manganese-superoxide dismutase activity than controls. The aortas of patients with AA had significantly lower amounts of elastin and greater elastase activity than either controls or those with OD. However, the differences were independent of blood pressure. Hypertensive patients with OD and AA had 31% more and 27% less aortic collagen, respectively, than their NT counterparts (P less than 0.05). These data suggest that the reduction in aortic collagen and elastin in HT patients with AA compared with their NT counterparts may explain the larger size of aneurysms and predispose to their eventual rupture. Furthermore, the diminished antioxidant status associated with HT predisposes to lipid peroxidation, which contributes to the acceleration of these processes. Our studies were conducted in patients with established aortic aneurysmal and occlusive disease. Whether these observations are pertinent to the pathogenesis of AA and OD remains unclear and merits further study.
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PMID:Effects of hypertension on aortic antioxidant status in human abdominal aneurysmal and occlusive disease. 199 4

We performed an in vitro study to assess damage to swine aortic endothelial cells by rabbit beta-VLDL and/or rabbit peritoneal macrophages. Incubation of cultured aortic endothelial cells with beta-VLDL, macrophages, or macrophage lysate induced endothelial cell damage time- and dose-dependently as estimated by [3H]adenine release. Incubation of endothelial cells with both beta-VLDL and macrophages produced a synergistic effect on the increase of [3H]adenine release. Pretreatment of the endothelial cells with some kinds of antioxidants (probucol 50 micrograms/ml, vitamin E 50 microM, superoxide dismutase-polyethylene glycol 0.5 mg/ml, or catalase-polyethylene glycol 0.5-1.0 mg/ml) significantly prevented the endothelial damage by beta-VLDL or macrophage lysate. We conclude that beta-VLDL and/or macrophages could induce endothelial cell damage and that some kinds of antioxidants could prevent it.
Atherosclerosis 1990 Dec
PMID:Aortic endothelial cell damage induced by beta-VLDL and macrophages in vitro. 210 79


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