Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P30044 (antioxidant enzyme)
8,037 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human hepatoma cell line Hep 3B, which has the hepatitis B virus genome, shows over 80% decrease of copper/zinc superoxide dismutase activity, over 90% decrease of manganese superoxide dismutase activity, over 70% decrease of catalase activity, absence of glutathione peroxidase and glutathione S-transferase activities, over 270-fold increase of ferritin content and 25-fold increase of total iron compared to normal autopsy liver. These conditions of low antioxidant enzyme activities and iron overload are those which support the accumulation of oxygen free-radicals and DNA damage commonly considered to be carcinogenic mechanisms.
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PMID:Antioxidant systems in tumour cells: the levels of antioxidant enzymes, ferritin, and total iron in a human hepatoma cell line. 350 92

Exploratory factor analysis of reported specific activities of the antioxidant enzymes superoxide dismutase, catalase and glutathione peroxidase in normal human tissues, normal mouse tissues, vertebrate red blood cells and neoplastic human cell lines shows that the activities of copper-zinc superoxide dismutase, catalase and glutathione peroxidase in normal tissues are influenced by a single factor. Catalase activity has the highest loading and correlation with this factor, suggesting a catalase- or hydrogen peroxide-related influence. The activity of manganese superoxide dismutase is influenced by a separate factor. The activities of copper-zinc and manganese superoxide dismutases in normal tissues therefore appear to be dichotomously regulated. The activities of superoxide dismutase and glutathione peroxidase in vertebrate red blood cells are influenced by a single factor. The activity of catalase is influenced by a separate factor. The roles of glutathione peroxidase and catalase in hydrogen peroxide catabolism in red blood cells in fact differ. In neoplastic human cell lines, two bipolar factor factors appear to influence the activities of catalase and manganese superoxide dismutase, and glutathione peroxidase and copper-zinc superoxide dismutase, respectively. The factors are, however, mainly catalase and glutathione peroxidase activity factors as the loadings and correlations of manganese superoxide dismutase on the one hand and copper-zinc superoxide dismutase on the other, with the respective factors, are relatively small. Potentially low superoxide production and intrinsically low peroxidizability of tumour cell membranes underlie the peculiar variation of antioxidant enzyme activities in tumour cells. Factor analysis is proposed as a heuristic data reduction and hypothesis-creating technique for the variation of antioxidant and other functionally-linked enzyme activities in normal and pathological cells and tissues.
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PMID:Factor analysis of the activities of superoxide dismutase, catalase and glutathione peroxidase in normal tissues and neoplastic cell lines. 350 91

Monolayer cultures of fetal rat mixed lung cells respond to sublethal concentrations (50%) of oxygen by a reduced growth rate. Exposure to 95% O2 causes growth arrest and cell loss. In the presence of serum the addition of dexamethasone (5.5 nM), tri-iodothyronine (5.5 nM), or insulin (5 microU/ml) appeared to increase the cytotoxicity of 95% O2. Under growth-arrested conditions, in the absence of serum or elevated O2 concentrations, all three agents influence cellular antioxidant enzyme activities. Dexamethasone (0.055 nM) increased CuZn superoxide dismutase activity by 72% and glutathione peroxidase activity by 94%. Triiodothyronine (5.5 nM) increased CuZn superoxide dismutase activity 93%. Insulin (5 microU/ml) increased CuZn superoxide dismutase activity 90%, and catalase activity 58%. Dexamethasone, but not tri-iodothyronine or insulin, seems to have a protective effect against subsequent acute hyperoxia under serum-free conditions. Local non-hormonal factors may also influence lung cell responses to acute increases in oxygen concentrations, since cells acutely exposed to 50% or 95% O2 release a transferable factor(s) into their culture medium which increases antioxidant enzyme activities of non-hyperoxic lung cells.
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PMID:Hormonal and local factors influence antioxidant enzyme activity of rat fetal lung cells in vitro. 352 18

Fetal rat lung fibroblasts were cultured in a gas phase of 20% O2, 5% CO2 (PO2 measured, 150 Torr) or 2% oxygen, 5% CO2 (PO2 measured, 25 Torr) with or without 100 nM dexamethasone (Dex). Superoxide dismutase (SOD) activity per cell increased spontaneously during 4 days of incubation at both PO2, but catalase (CAT) activity tended to fall during this time and glutathione peroxidase (GPx) activity showed no consistent trend during this interval. Cells cultured at a low PO2 had a lower protein content and SOD activity compared with air controls. Dex inhibited cell proliferation and enhanced intracellular accumulation of protein at the low PO2 but prevented the increase in protein content without affecting cell multiplication at a PO2 of 150 Torr. SOD activity per cell was enhanced by Dex at a low PO2 but reduced in 20% O2, 5% CO2. An increase in CAT and GPx activity per cell resulted on exposing fibroblasts to Dex in the presence of low PO2. These results show that Dex affects the growth and antioxidant enzyme activity of fetal lung fibroblasts, and this action of Dex can be modulated by changing the ambient PO2.
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PMID:PO2-dexamethasone interactions in fibroblast growth and antioxidant enzyme activity. 356 58

Whereas guinea pigs have advanced prenatal morphological lung development, their surfactant development is not "precocious" compared with other small laboratory animals. To investigate whether maturation of the antioxidant enzyme (AOE) system coincides more closely with surfactant development or with morphological maturation, we assayed fetal guinea pig lungs at gestational days 49-69 for superoxide dismutase, catalase, and glutathione peroxidase activities. We found that elevations in pulmonary AOE occurred in parallel with increases in surfactant during the final 10-15% of gestation. Since newborn guinea pigs behave more like adult animals in their relative intolerance to hyperoxia, we explored whether prematurely delivered guinea pigs would tolerate high O2 exposure better than full-term newborns. We found that prematures have markedly improved hyperoxic tolerance compared with newborns (time at which 50% of animals died in greater than 95% O2, 6.4 days vs. 4.5 days, respectively, P less than 0.05); and (unlike newborns) premature pups are capable of mounting an elevated AOE response to hyperoxic challenge. Thus premature guinea pigs behave more like full-term newborns of other species in respect to hyperoxic tolerance, an additional precocious feature of guinea pig development.
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PMID:Guinea pig lung development: antioxidant enzymes and premature survival in high O2. 356 1

Adult rats were exposed to room air, 50%, 65%, or 80% oxygen for 6 wk. Subsets were sacrificed periodically in order to establish alterations in growth parameters and lung antioxidant responses. Prolonged exposure to 50% or 65% oxygen did not result in weight loss or changes in lung-to-body weight ratios relative to control values. Treatment with 50% oxygen produced delayed increases in nonprotein sulfhydryl (NPSH) content and catalase (CAT) activity, while treatment with 65% oxygen produced delayed increases in NPSH, CAT, and glutathione peroxidase (GPx) content. Rats treated for 6 wk with either 50% or 65% oxygen died significantly earlier than room-air control animals when these groups were subsequently exposed to 100% oxygen. Rats exposed to 80% oxygen had significantly decreased body weight, increased lung-to-body weight ratios, and increased levels of NPSH, CAT, GPx, total superoxide dismutase, and glutathione reductase by 11 days of treatment. At 6 wk they had significantly altered growth parameters and increased GPx catalase, and NPSH levels. Their final antioxidant profile was not significantly different from 65% oxygen-exposed rats. However, these animals survived significantly longer than any group when exposed to 100% oxygen. In summary, lower concentrations of sublethal hyperoxia (less than or equal to 65%) were capable of eliciting significant antioxidant enzyme responses. Levels of antioxidant enzymes in the lungs of rats chronically exposed to sublethal hyperoxia did not appear to be solely responsible for enhanced survival in subsequent lethal hyperoxia.
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PMID:Adaptation to chronic hyperoxia. Biochemical effects and the response to subsequent lethal hyperoxia. 357

Exposure of several different animal models to O2-induced lung injury has revealed marked differences in sensitivity of various species to O2 damage. These differences may be due in part to variation of cellular antioxidant defenses. To characterize lung antioxidant enzyme activities in different species, we measured lung activities of glutathione peroxidase (GSH-Px), superoxide dismutase (SOD), catalase (CAT), and glutathione S-transferase (GSH S-trans) in rat, hamster, baboon, and human lung. Soluble lung fractions were also fractionated on Sephadex G-150-S columns and GSH-Px activity was measured using both cumene hydroperoxide and H2O2. This was done to evaluate non-Se-dependent GSH-Px activity in these lung samples. Human lung was obtained at surgery from patients undergoing lobectomy or pneumonectomy for localized lung tumors. SOD activity was similar for all four groups. GSH-Px activity was higher in rat lung than baboon or hamster lung. Lung CAT activity was variable with the highest activity present in the baboon which revealed a lung CAT activity 10 times higher than activity present in the rat. Lung GSH S-trans activities were higher in hamster, baboon, and human lung than in rat lung. Non-Se-dependent GSH-Px was present in rat lung but absent in hamster, baboon, and human lung. We conclude that the hamster was the best model of the animals studied for mimicking human lung antioxidant enzyme activities. Rat lung antioxidant enzyme activities were markedly different from any of the other species examined.
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PMID:Species variation in lung antioxidant enzyme activities. 365 19

The surfactant system and antioxidant enzyme system of the lung have chronologically similar developmental patterns, and the maturation of both systems is accelerated by glucocorticoid hormones. To investigate whether thyroid hormone might also stimulate the development of the antioxidant enzyme system as well as the surfactant system, we injected pregnant rats with triiodothyronine (T3) or diluent. Fetal T3 offspring demonstrated significantly elevated T3 levels, had significantly increased lung tissue disaturated phosphatidylcholine (DSPC) and total phospholipid content, yet had significantly decreased activities of three lung antioxidant enzymes (AOE) (superoxide dismutase, catalase, and glutathione peroxidase). When dexamethasone was administered in combination with T3, fetuses demonstrated increases in lung DSPC content but decreases in AOE of magnitude equivalent to or greater than that seen with T3 alone. These findings indicate that thyroid hormone affects surfactant and AOE development in opposite ways and may have potentially harmful as well as beneficial effects on different aspects of lung development.
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PMID:Thyroid hormone depresses antioxidant enzyme maturation in fetal rat lung. 366 54

The search for morphological clues to the etiology of schizophrenia has led to widespread application of computed tomography (CT) scans in the examination of patients. These investigations have resulted in numerous reports over the past several years of brain atrophy and increased ventricle-brain ratios (VBR), suggestive of neuronal tissue damage, associated with the disorder. Altered activity of cellular antioxidant systems have been implicated in the neuronal cell loss that is associated with degenerative diseases of the central nervous system (CNS), but this phenomenon has not been investigated with respect to functional disorders like schizophrenia. A search for such a relationship in schizophrenics with evidence of brain atrophy has been initiated by measuring the activity of the important antioxidant enzyme glutathione peroxidase (GPx) in blood samples from a population of chronic schizophrenics and age- and sex-matched nonschizophrenic mental patients as controls. A strong negative correlation has been found between GPx activity in both isolated platelets and erythrocytes and CT scan measures of brain atrophy and VBR in the schizophrenics, but not in the control population, which exhibited comparable CT scan abnormalities. These observations suggest a unique relationship of GPx to the mechanism of tissue damage in the schizophrenics.
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PMID:Glutathione peroxidase and CT scan abnormalities in schizophrenia. 366 87

Comparative studies were performed on the activities of superoxide dismutases, catalase and glutathione peroxidase in organ homogenates from three omnivorous fishes, the barbel, crucian carp and common carp. The lipid peroxidation and protein contents of organ homogenates were also compared. These comparative measurements primarily provide control values for subsequent toxicological examinations. The highest total superoxide dismutase activities were found in the liver or roe, kidney, heart and spleen in every cases. The antioxidant enzyme activities and other studied parameters of the organ homogenates partly appear to depend on the feeding mode, but are rather characteristic of the fish variety.
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PMID:Comparative antioxidant enzyme study in freshwater fishes. II. Distribution of antioxidant enzymes and lipid peroxidation in omnivorous fish organs. 367 48


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