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)

The involvement of oxygen radicals in the pathogenesis of Parkinson's disease has been suggested for some time. This article reviews the evidence supporting the involvement of oxygen radicals in the disease process in the brain. This includes a discussion of iron, lipid peroxidation, peroxidase, catalase, superoxide dismutase, and glutathione levels in the brain. In addition, various theories of induction of Parkinson's disease are discussed in relation to the possible involvement of oxygen radicals. These theories include the environmental toxin theory, the dopamine turnover theory, and the cerebral blood flow theory.
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PMID:Oxygen free radicals and Parkinson's disease. 201 74

Hemoglobin Volga is a rare unstable hemoglobin in which there is a replacement of an internal alanine residue, beta 27 (B9), by an aspartate. From a clinical point of view it is characterized by a moderately severe Heinz body hemolytic anemia. A possible clue to the cause of the hemolysis is the increased vulnerability to oxidation of Hb Volga, with increased free radical turnover and consequent damage to the red cell membrane. Splenectomy performed on carriers of Hb Volga may have a positive outcome leading to improvements in both the clinical condition of the patient and hematological variables such as hemoglobin concentration and bilirubin concentration. With the aim of defining a more complete biochemical picture of the beneficial effect of splenectomy in this disease, we have evaluated some enzymic activities of the red cells of a young patient with Hb Volga disease, before and after splenectomy. In particular, we have investigated the activity of superoxide dismutase (superoxide: superoxide oxidoreductase), glutathione peroxidase (GSH peroxidase, glutathione: hydrogen-peroxidase oxidoreductase) and catalase (hydrogen-peroxide: hydrogen-peroxide oxidoreductase) that catalyze reactions relevant to the steady-state concentration of potentially toxic oxygen derivatives such as O2- and H2O2. Besides, we have carried out experiments on the erythrocytic membrane to evaluate eventual changes on the chemical (i.e. peroxidation) and physico-chemical (i.e. fluidity) properties following surgery.
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PMID:Influence of splenectomy on the properties of erythrocytes with hemoglobin Volga disease. 202 81

By monitoring dopamine metabolism in rat pheochromocytoma derived PC12 cell cultures during extended treatment with manganese chloride, we assessed the functional changes occurring in a dopaminergic system during the development of manganese-induced damage. Besides eliciting a specific toxic effect on PC12 cells, manganese induced the complete disappearance of extracellular (free) but not intracellular (vesicle stored) dopamine and its metabolite 3,4-dihydroxyphenylacetic acid. This effect was observed also using low manganese concentrations (1 microM) and mainly occurred by non-enzymatic catechol oxidation since it was still evident in a cell free medium and it was fully prevented by ascorbic acid but not by reduced glutathione. The possibility of a mere "non-biological" action was ruled out by the observation of an irreversible effect of manganese as manifested by the cells' apparent inability to release dopamine or 3,4-dihydroxyphenylacetic acid into the culture medium even after complete manganese removal (post-manganese incubation). That a free radical mechanism was not involved in the genesis of this irreversible effect was shown by the fact that neither ascorbic acid, catalase, superoxide dismutase nor glutathione-peroxidase were able to prevent the decrease in catecholamine levels in the "post-manganese" incubation medium when added at the same time as the manganese. The results establish this PC12 cell system as an in vitro model for studying interactions between manganese and catechols and provide a detailed description of the nature of the neurochemical alterations that this heavy metal can induce in a dopaminergic system.
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PMID:Dopamine metabolism alterations in a manganese-treated pheochromocytoma cell line (PC12). 203 Dec 48

This study reports that administration of TSH in young female mice results in a concomitant augmentation of SOD activity in the thyroid gland. A strong thyroid-adrenal interdependence was also evident in the form of a marked loss of SOD activity in the adrenal gland in response to TSH administration. Very recently SOD/O2.- system had been identified as a potent H2O2 generator which provides substrate for the action of key enzyme in thyroxine and progesterone biosynthesis, viz. the peroxidase. Thus, these results strongly suggest that trophic hormones tonically stimulate hormone biosynthesis by modulating activation/suppression of specific enzymes, which could be the basis of the tuning sequence.
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PMID:Superoxide dismutase activation in thyroid and suppression in adrenal. Novel pituitary regulatory routes. 203 49

After spinal cord injury, two groups of cats were treated with a combination of methylprednisolone sodium succinate (MP, 35 mg/kg) and epsilon-aminocaproic acid (EACA, 350 mg/kg), and guanabenz acetate (0.65 mg/kg). Guanabenz acetate was administered twice daily for 8 weeks. In the first group, the treatment significantly increased blood flow in the abdominal aorta. All cats treated with guanabenz acetate 3 hr after spinal cord contusion had return of micturition and none suffered complete paraplegia. Four animals had partial and the other four had complete motor recovery. A superoxide (O2-.) generating system, horseradish peroxidase, decreased [14C]gamma amino butyric acid uptake by mouse cortical slices by 33% but when superoxide dismutase was added to the medium, the uptake was reduced by only 9%. The nerve endings were also protected by superoxide dismutase from morphologic damage by O2-. as observed by electron microscopy. The agents used in these studies produce their ameliorating effects by virtue of their anti-inflammatory, antioxidant, and membrane stabilizing properties, and enhancing the regional microcirculation. In addition to having these properties, guanabenz acetate is also an alpha 2 adrenoceptor agonist.
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PMID:Treatment of mammalian spinal cord injury with antioxidants. 205 14

Because the developing brain is subject to high oxygen tension and lacks a functional bloodbrain anti-oxidant protection is important to development in the brain. The levels of superoxide dismutase, copper-zinc superoxide dismutase, manganese superoxide dismutase, catalase, glutathione and related enzymes, namely, glutathione reductase and glutathione peroxidase were determined in rat brain at various stages of development. The levels of thiobarbituric acid reactive products, indicative of lipid peroxidation, were very low at birth and increased to adult levels by the 16th day after birth. Brain glutathione levels displayed significant variations during the first 2 weeks after birth but not thereafter. Catalase activity in developing brain slowly increased over 45 days. Total superoxide dismutase activity in 1-day-old rat brain, 80% of the adult rat brain level, subsequently decreased on day 6. Total superoxide dismutase activity, however, increased again in 10-day-old rats and remained constant thereafter. While the developmental pattern of manganese superoxide dismutase was similar to that of the total superoxide dismutase, the copper-zinc superoxide dismutase levels were low at birth and reached adult levels on the 10th day after birth. There was no variation in glutathione reductase and peroxidase levels except for a decrease on day 16 of glutathione reductase and slow increase in adult levels by day 28. The present findings suggest that the overall levels of antioxidant enzymes in the developing brain are comparable to a large extent to those present in the adult brain. In contrast to the developing brain, hepatic levels of glutathione, total superoxide dismutase, manganese superoxide dismutase are significantly lower at birth and increase during development.
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PMID:Free radical scavenging systems in developing rat brain. 205 19

The loss of protection by human recombinant (hr) Cu.Zn-superoxide dismutase (SOD) at higher doses reported previously may have been due to the weak peroxidase activity of this enzyme. To test this possibility we studied the dose-response relationship of hrMn-SOD, which lacks peroxidase activity. Isolated, buffer perfused rabbit hearts were subjected to 1 h of global ischemia followed by 1 h of reperfusion, and the percent recovery of developed tension (relative to preischemic) was measured via a left ventricular balloon connected through a pressure transducer to a polygraph recorder. The coronary effluent was assayed for lactate dehydrogenase (LDH) release. While hrMn-SOD almost completely protected against loss of function and LDH release at 2 and 5 mg/L (p less than 0.01), it exacerbated the damage at 50 mg/L concentration (p less than 0.05 against controls), thus giving an even sharper bell-shaped curve than seen with the hrCu,Zn-SOD. Therefore we conclude that, first, while the hrMn-SOD protects the reperfused heart at lower doses, it may exacerbate the damage at higher doses. Second, that the lack of protection seen at higher doses of hr-Cu,Zn-SOD is unlikely to be due only to its peroxidase activity.
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PMID:The cardioprotective effect of Mn-superoxide dismutase is lost at high doses in the postischemic isolated rabbit heart. 207 27

H2O2, in addition to producing highly reactive molecules through hydroxyl radicals or peroxidase action, can exert a number of direct effects on cells, organelles and enzymes. The stimulations include glucose transport, glucose incorporation into glycogen, HMP shunt pathway, lipid synthesis, release of calcium from mitochondria and of arachidonate from phospholipids, poly ADP ribosylation, and insulin receptor tyrosine kinase and pyruvate dehydrogenase activities. The inactivations include glycolysis, lipolysis, reacylation of lysophospholipids, ATP synthesis, superoxide dismutase and protein kinase C. Damages to DNA and proteoglycan and general cytotoxicity possibly through oxygen radicals were also observed. A whole new range of effects will be opened by the finding that H2O2 can act as a signal transducer in oxidative stress by oxidizing a dithiol protein to disulphide form which then activates transcription of the stress inducible genes. Many of these direct effects seem to be obtained by dithiol-disulphide modification of proteins and their active sites, as part of adaptive responses in oxidative stress.
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PMID:H2O2 has a role in cellular regulation. 207 30

By the production of microbicidal agents, such as reactive oxygen species, activated PMN are capable of inducing tissue damage in the host. TNF-alpha was recently shown to be a potent activator of PMN oxidative metabolism. To further evaluate the interaction between activated PMN with physiological target cells, the effect of human PMN on cultured bovine aortic and human umbilical vein endothelial cells (EC) upon stimulation with human TNF-alpha was investigated by ultrastructural techniques: Scanning and transmission electron microscopy (SEM and TEM resp.) and ultrastructural detection of H2O2 production. When isolated PMN were added to EC in the presence of recombinant human TNF-alpha (10(3) U/ml) the EC-monolayer was disrupted within 4 h and EC changed their shape by exhibiting a spindle-like structure. PMN were seen in the intercellular spaces. Release of H2O2 was observed at the surface of the PMN plasma membrane, the luminal part of the small intracytoplasmic vacuoles in the PMN as well as in the contact zone between PMN and EC, but not within the EC. Scavengers of reactive oxygen species, such as superoxide dismutase and catalase or D-mannitol failed to block the effect of TNF-alpha-stimulated PMN on EC. In contrast, addition of NaN3 (0.1 mM), an inhibitor of myeloperoxidase activity, almost completely inhibited the disruption of EC-monolayers. Subsequent addition of NaN3-insensitive horseradish peroxidase reconstituted the effect. The results obtained suggest that TNF-alpha-stimulated PMN effectively cause the disruption of EC monolayers by an adherence-dependent mechanism which is mediated by the release of myeloperoxidase. The results may be of major importance for the pathogenesis of inflammatory vascular reactions.
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PMID:Interaction of granulocytes and endothelial cells upon stimulation with tumor necrosis factor-alpha: an ultrastructural study. 209 2

Dithionite is often used to deoxygenate aqueous solutions because it reacts readily with oxygen. However, milder reducing agents, that do not ordinarily react readily with oxygen, may do so in the presence of an appropriate redox catalyst. We show that dithiothreitol reacts rapidly with oxygen in concentrated hemoglobin solutions to produce a mixture of deoxy-, met- and sulf-hemoglobin. The reaction in neutral phosphate buffer is not significantly affected by superoxide dismutase, benzoate or EDTA. However, addition of catalase or horseradish peroxidase decreases the proportions of met- and sulf-hemoglobin produced. We conclude that both hemoglobin and horse radish peroxidase accept dithiothreitol as the reducing substrate in heme catalyzed reactions with their respective oxidizing substrates (dioxygen and hydrogen peroxide). As a result, deoxy-hemoglobin suitable for physical studies can be prepared with a combination of a stoichiometric excess of dithiothreitol and a catalytic amount of horse radish peroxidase.
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PMID:Gentle chemical deoxygenation of hemoglobin solutions. 212 39


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