UNIPROT:P30044 - FACTA Search

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

Hydrogen peroxide (H2O2), a reactive oxygen species, is assumed to have a detrimental effect on neuronal plasticity. Indeed, H2O2 suppresses long-term potentiation (LTP) in hippocampal slices of normal rats and wild-type (wt) mice. Transgenic mice overexpressing superoxide dismutase (SOD) 1 (tg-SOD), which maintain high ambient H2O2, have also been shown to be impaired in their ability to express hippocampal LTP. Paradoxically, H2O2, at a concentration (50 microm) that blocks LTP in wt mice, actually enhanced LTP in slices of 2-month-old tg-SOD mice. H2O2-dependent LTP in tg-SOD was blocked by the protein phosphatase calcineurin inhibitor FK506, but not by rapamycin, an FK-binding protein 12 (FKBP12) inhibitor or by 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H7), a serine-kinase inhibitor. Interestingly, wt and tg-SOD mice expressed similar levels of the antioxidant enzyme catalase and similar activity of glutathione peroxidase. An opposite situation was found in 2-year-old mice. Aged wt mice were impaired in LTP in a manner that could be reversed by the addition of H2O2. Surprisingly, aged tg-SOD mice exhibited larger LTP than that found in wt mice, but this was now reduced by 50 microm H2O2. Both young tg-SOD and aged control mice displayed altered protein phosphatase activity, compared with that of young controls; moreover, FK506 inhibited LTP in old tg-SOD as well as in old wt mice treated with H2O2. These data promoted a dual role for H2O2 in the regulation of LTP, and proposed that it is mediated by the protein phosphatase calcineurin.
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PMID:Paradoxical actions of hydrogen peroxide on long-term potentiation in transgenic superoxide dismutase-1 mice. 1461 95

Algal cells have developed different strategies to cope with the common environmentally promoted generation of H(2)O(2), which include induction of catalase (CAT) and ascorbate peroxidase (APX), massive H(2)O(2) release in seawater, and synthesis of volatile halocarbons by specific peroxidases. The antioxidant adaptability of the economically important carrageenophyte Kappaphycus alvarezii (Doty) Doty (Gigartinales: Rhodophyta) was tested here against exposure to clofibrate (CFB), a known promoter of peroxisomal beta-oxidation in mammals and plants. Possibly as a consequence of CFB-induced H2O2 peroxisomal production, the maximum concentration of H(2)O(2) in the seawater of red algae cultures was found to occur (120+/-17 min) after the addition of CFB, which was followed by a significant decrease in the photosynthetic activity of PSII after 24 h. Interestingly, 4 h after the addition of CFB, the total SOD activity was about 2.5-fold higher than in the control, whereas no significant changes were observed in lipoperoxidation levels (TBARS) or in CAT and APX activities. The two H(2)O(2)-scavenging enzymes were only induced later (after 72 h), whereupon CAT showed a dose-dependent response with increasing concentrations of CFB. A more pronounced increase of TBARS concentration than in the controls was evidenced when a 50 microM Fe(2+/3+) solution (3:2 ratio) was added to CFB-treated cultures, suggesting that the combination of exacerbated H(2)O(2) levels in the seawater-in this work, caused by CFB exposure-and Fenton-reaction catalyst (ferric/ferrous ions), imposes harsh oxidative conditions on algal cultures. The bulk of data suggests that K. alvarezii possesses little ability to promptly induce CAT and APX compared to the immediately responsive antioxidant enzyme SOD and, to avoid harmful accumulation of H(2)O(2), the red alga presumably releases H(2)O(2) into the surrounding medium as an alternative mechanism.
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PMID:Temporal mismatch between induction of superoxide dismutase and ascorbate peroxidase correlates with high H2O2 concentration in seawater from clofibrate-treated red algae Kappaphycus alvarezii. 1462 86

We have investigated the mechanisms of induction of apoptosis by the antineoplastic ether lipid ET-18-OCH3 (ALP) in sensitive S49wt mouse lymphoma cells and ALP-resistant S49ar variants, both with wild-type p53, and in related L1210 cells with mutated p53. Ether lipid-resistant S49ar cells were cross-resistant to extracellular stress factors (cold shock, heat shock, H2O2, dimethylsulfoxide) and to radiation-induced apoptosis but not to physiological apoptotic signals (dexamethasone, growth factor deprivation, thapsigargin, C2-ceramide) and expressed similar levels of the apoptosis-regulating proteins Bcl-2, Bcl-X, Bax, Bad and Bak as did the parent S49wt cells. The uptake of [3H]-ALP was strongly reduced in the stress-resistant cells but this was not associated with significant differences in membrane cholesterol:phospholipid content nor in membrane microviscosity. In S49ar cells the activity of the antioxidant enzyme glutathione peroxidase (GSH-Px) was increased 4-fold and depletion of glutathione with the drug L-buthionine-S-R-sulfoximine (L-BSO) lowered the resistance of S49ar cells to ALP, stress factors and ionising radiation. The results indicate that ether lipids induce apoptosis by imposing a special form of physico-chemical stress, mediated by reactive oxygen species but independent of p53 status. The capacity of glutathione-dependent anti-oxidant defence appeared an important and shared determinant of the sensitivity to ether lipids, several types of extracellular stress and ionising radiation.
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PMID:Signalling steps in apoptosis by ether lipids. 1463 26

Chloroacetonitrile (CAN) is a disinfection by-product of chlorination of drinking water. Epidemiological studies indicate that it might present a potential hazard to human health. The present work provides an evidence for CAN activation to cyanide (CN-) by myeloperoxidase (MPO)/hydrogen peroxide (H2O2)/chloride (Cl-) system in vitro. Optimum conditions for the oxidation of CAN to CN- were characterized with respect to pH, temperature and time of incubation as well as CAN, MPO, H2O2 and KCl concentrations in incubation mixtures. The kinetic parameters governing the reaction; maximum velocity (Vmax) and Michaelis-Menten constant (Km) were assessed. Oxidation of CAN to CN- by NaOCl alone was shown. Addition of the MPO inhibitors; sodium azide (NaN3), 4-amino benzoic acid hydrazine (ABAH) or indomethacin to the reaction mixtures resulted in a significant decrease in the rate of CAN oxidation. Inclusion of the antioxidant enzyme catalase (CAT) in the incubation mixtures resulted in a significant decrease in the rate of CAN oxidation and CN- formation. Addition of the sulfhydryl compounds; glutathione (GSH), N-acetyl-L-cysteine (NAC), L-cysteine or D-penicillamine significantly enhanced the rate of CN- release. In conclusion, MPO/H2O2/Cl- system has the ability of oxidizing CAN to CN-. The present results represent a novel pathway for CAN activation and might be important in explaining CAN-induced toxicity.
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PMID:Myeloperoxidase-catalyzed oxidation of chloroacetonitrile to cyanide. 1468 62

Results are presented which support the hypothesis that adequate steady-state levels of hydrogen peroxide (H2O2) are required to overcome the effects of high catalase and glutathione peroxidase (GPx) expression for p38 mitogen-activated protein (MAP) kinase activation and tumor necrosis factor (TNF)-alpha gene expression in human alveolar macrophages stimulated with asbestos. We found significant differences in the types and amounts of reactive oxygen species generated in human blood monocytes compared with human alveolar macrophages. This difference in reactive oxygen species production is related, in part, to the differences in antioxidant enzyme expression and activity. Most importantly, catalase and GPx activities were significantly increased in alveolar macrophages compared with blood monocytes. Asbestos activated the p38 MAP kinase and induced TNF-alpha gene expression only in blood monocytes. Increasing the steady-state levels of H2O2 by using polyethylene glycol superoxide dismutase, an antioxidant that crosses the cell membrane, or aminotriazole, an irreversible inhibitor of catalase, allowed the p38 MAP kinase to be activated in alveolar macrophages. In addition, asbestos-stimulated macrophages cultured with polyethylene glycol superoxide dismutase had a significant increase in gene expression mediated by the TNF-alpha promoter. These results demonstrate that high catalase and GPx activity in human alveolar macrophages limits the effectiveness of H2O2 to act as a mediator of inflammatory gene expression.
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PMID:High levels of catalase and glutathione peroxidase activity dampen H2O2 signaling in human alveolar macrophages. 1496 75

Oxidative mechanisms of injury are important in many neurological disorders, including hypoxic-ischemic brain damage. Cerebral palsy after preterm birth is hypothesized to be caused by hypoxic-ischemic injury of developing oligodendrocytes (OLs). Here we examined the developmental sensitivity of OLs to exogenous hydrogen peroxide (H2O2) with stage-specific rat oligodendrocyte cultures. We found that H2O2 itself or that generated by glucose oxidase was more toxic to developing than to mature OLs. Mature OLs were able to degrade H2O2 faster than developing OLs, suggesting that higher antioxidant enzyme activity might be the basis for their resistance. Catalase expression and activity were relatively constant during oligodendrocyte maturation, whereas glutathione peroxidase (GPx) was upregulated with a twofold to threefold increase in its expression and activity. Thus, it appeared that the developmental change in resistance to H2O2 was caused by modulation of GPx but not by catalase expression. To test the relative roles of catalase and GPx in the setting of oxidative stress, we measured enzyme activity in cells exposed to H2O2 and found that H2O2 induced a decrease in catalase activity in developing but not in mature OLs. Inhibition of GPx by mercaptosuccinate led to an increase in the vulnerability of mature OLs to H2O2 as well as a reduction in catalase activity. Finally, H2O2-dependent inactivation of catalase in developing OLs was prevented by the GPx mimic ebselen. These data provide evidence for a key role for GPx-catalase cooperativity in the resistance of mature OLs to H2O2-induced cell death.
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PMID:Glutathione peroxidase-catalase cooperativity is required for resistance to hydrogen peroxide by mature rat oligodendrocytes. 1497 32

Cisplatin-induced nephrotoxicity is associated with an increase in lipid peroxidation and oxygen free radicals in rat kidneys. In this study, the effects of desferrioxamine were compared to vitamin C and E on cisplatin-induced lipid peroxidation and antioxidant enzyme activities in rat kidneys. Rats were divided into five groups, with 15 Wistar rats in each group. In the control group, rats received 1 mL/100 g isotonic saline solution intraperitoneally (i.p.). In Group II, 10 mg/kg cisplatin i.p. was injected to rats. Thirty minutes before the same dosage of cisplatin administration, 100 mg/kg i.p. vitamin C or E was given to rats in groups III and IV, respectively. Rats in Group V received 250 mg/kg desferrioxamine i.p., before the same dose of cisplatin administration. All rats were killed by cervical dislocation after 72 hours. The kidneys were immediately removed and washed in cold saline. Spectrophotometric method was used for all analyses. While catalase, glutathione reductase (GR), and superoxide dismutase (SOD) levels were found to be significantly decreased (P < 0.001), malondialdehyde (MDA) (P < 0.05) and hydrogen peroxide (H2O2) (P < 0.001) levels were significantly increased in the cisplatin group when compared to the controls. MDA levels were decreased by desferrioxamine (P < 0.005) as well as vitamin C and E (P < 0.05 and P < 0.001, respectively). These three compounds induced a significant increase in SOD levels (P < 0.05), but only in the vitamin C group, were SOD levels not significantly different than the levels of the controls (P > 0.05). In the desferrioxamine (P < 0.05), vitamin C and E groups (P < 0.001 for both), the cisplatin elevated H2O2 levels were decreased. None of these drugs had any effect on GR and catalase levels (P > 0.05). Desferrioxamine is useful to prevent cisplatin-induced lipid peroxidation, however, vitamin C and E are more effective on antioxidant enzymes than desferrioxamine.
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PMID:The effects of desferrioxamine on cisplatin-induced lipid peroxidation and the activities of antioxidant enzymes in rat kidneys. 1502 13

Epidemiologists have observed a positive association between human morbidity and mortality and the atmospheric concentrations of fine particulate matter (PM), but the mechanisms underlying the toxic effects of PM have not been elucidated. Various components of ambient PM have been implicated in toxicity (including ultrafine particles, transition metals, organics and oxidants). Our research focused on hydrogen peroxide (H2O2). We speculated that fine PM transports H2O2 into the lower lung, leading to tissue injury and to accumulation and activation of macrophages in these regions. The macrophages release cytotoxic mediators and proinflammatory cytokines that contribute to the pathogenesis of tissue injury. To test this hypothesis, we conducted studies to determine (1) whether tissue injury induced by aerosols is mediated by cytotoxic H2O2 carried into the lower lung by fine particles and (2) whether exposure of rats to fine PM leads to accumulation of activated macrophages in the lung. For our studies, systems were designed to generate model atmospheric fine PM and atmospheric peroxides consisting of an ammonium sulfate [(NH4)2SO4] aerosol (mass median diameter, 0.46 +/- 0.14 microm) and H2O2. We also constructed a 6-port nose-only exposure chamber. Female Sprague Dawley rats were exposed for 2 hours to aerosols consisting of (NH4)2SO4 (430 microg/m3), (NH4)2SO4 + 10, 20 or 100 ppb H2O2, vapor-phase H2O2 (10, 20 or 100 ppb), or particle-free air. Studies using oxygen-18 (18O)-labeled H2O2 were conducted to validate the transport of H2O2 into the lower lung with (NH4)2SO4. Rats were killed immediately (0 hours) or 24 hours after exposure. Compared with control animals, inhalation of (NH4)2SO4 and H2O2, alone or in combination, had no major effect on cell number or viability, protein content, or lactate dehydrogenase (LDH) levels in bronchoalveolar lavage (BAL) fluid collected either immediately or 24 hours after exposure. However, electron microscopy revealed that a larger number of neutrophils in pulmonary capillaries adhered to the vascular endothelium, especially in lungs of rats exposed to (NH4)2SO4 + H2O2. Inhalation of (NH4)2SO4 + H2O2 was also found to be associated with altered macrophage functional activity. Thus, exposing rats to (NH4)2SO4 + 20 ppb H2O2 or 20 ppb H2O2 alone caused a level of tumor necrosis factor alpha (TNF-alpha) production by lung macrophages that was higher than in controls. This higher level was observed immediately after exposure and persisted for at least 24 hours. Greater TNF-alpha production was also detected 24 hours after exposure to (NH4)2SO4 + 10 ppb H2O2. Immediately after rats inhaled (NH4)2SO4 + 10 ppb H2O2 or 20 ppb H2O2 alone, we also observed a transiently higher production of superoxide anion (O2-) by alveolar macrophages. Macrophages isolated 24 hours after exposure to 20 ppb H2O2 also produced larger quantities of superoxide anion. In contrast, immediately after exposure, macrophages from rats exposed to (NH4)2SO4 + 10 ppb H2O2 or to 20 ppb H2O2 alone generated less nitric oxide (NO). Reduced nitric oxide production was also observed 24 hours after exposure to (NH4)2SO4 + 10 ppb H2O2 or to 10 or 20 ppb H2O2 alone. Reduced nitric oxide production may have been due to superoxide anion-driven formation of peroxynitrite (ONOO-) anions. In this regard, nitrotyrosine, an in vivo marker of peroxynitrite, was detected in lung tissue immediately after rats were exposed to (NH4)2SO4 + H2O2 or to H2O2 alone (10 or 20 ppb). We also found that alveolar macrophages from rats exposed to (NH4)2SO4 + H2O2 showed a greater expression of the antioxidant enzyme heme oxygenase-1 (HO-1) when stimulated with lipopolysaccharide (LPS) and interferon-gamma (IFN-gamma). Similar results were observed after exposure of rats to an organic peroxide aerosol (cumene hydroperoxide). Taken together, the results of our studies demonstrate that biological effects of inhaled H2O2 are augmented by fine PM. Moreover, tissue injury induced by (NH4)2SO4 + H2O2 may be related to altered production of cytotoxic mediators by alveolar macrophages. Determining the relevance of these toxicologic results to human health will be important in future studies for evaluating the risk of exposure.
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PMID:Peroxides and macrophages in the toxicity of fine particulate matter in rats. 1503 94

The pathology of Parkinson's disease involves oxidative damage to dopaminergic neurons of the substantia nigra. Oxidation of the dopamine (DA) neurotransmitter itself may contribute to the generation of a reactive oxygen species (ROS) and subsequent neurodegeneration. Glia cells can either exacerbate injury or exert protective properties on local neurons in the brain. We investigate glial antioxidant enzyme systems relative to ROS generated during cytokine activation, monoamine oxidase (MAO) activity and autoxidation of DA in glioma cells. Rat C6 glioma cells stimulated with lipopolysaccharide Escherichia coli 0111:B4 and interferon gamma (LPS/IFN-g) produced high levels of nitric oxide (241 nmol mg(-1) protein 24 h(-1)) but not superoxide (O(-) (2)) or hydrogen peroxide (H(2)O(2)). Basal C6 cells exhibited a rapid and robust capacity to remove exogenous H(2)O(2) within minutes. Preincubation with sodium azide but not buthionine-[S, R]-sulfoximine attenuated this response, indicating catalase as the primary enzyme responsible for this effect. The glioma catalase reaction rate was slightly attenuated by exposure to LPS/IFN-g for 24 h. However, the reduction in catalase activity was not due to nitric oxide, because both the supernatant and sodium nitroprusside had no effect on isolated catalase enzyme activity. Hydrogen peroxide was produced only through substrate-driven MAO activity in prepared lysate. However, the quantity of H(2)O(2) produced per unit time (0.46 nmol mg(-1) protein min(-1)) was negligible compared with the enormous capacity for its removal by catalase (213.9 nmol mg(-1) protein min(-1)) (> or =462 x greater). Similarly, H(2)O(2) generated by DA autoxidation per unit time (0.28 nmol mg(-1) protein equiv. min(-1)), was rapidly dissolved by glioma cells at high capacity (> or =750 x greater). In conclusion, C6 cells produce nitric oxide under cytokine/endotoxin-stimulated conditions. Moreover, C6 cells exhibit a dynamic H(2)O(2) scavenging capacity, with ample facility to dispose of the peroxide generated by both MAO activity and spontaneous DA autoxidation.
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PMID:Glioma cell antioxidant capacity relative to reactive oxygen species produced by dopamine. 1505 4

In this study we determined the effect of reactive oxygen species (ROS) generation during incubation in media at 39 degrees C on ram spermatozoa and the protection by exogenously added antioxidant enzyme, superoxide dismutase (SOD). A novel Cu/Zn-SOD, isolated from the fungal strain Humicola lutea 103 (HLSOD), was used. Our results point out that the levels of both, superoxide anion radicals (*O2-) and H2O2, increase approximately 8-10- and 2-3-fold, respectively, during incubation of spermatozoa. Enhanced ROS generation coincided with reduction of motility, independently of the type of diluted medium. Addition of HLSOD (30, 60 and 120 U ml(-1) sperm) improved sperm functions, maintaining almost initial percentages of motile spermatozoa and increasing the values of mean cytochemical coefficient. At the same time, a significant diminution of *O2- and H2O2 content in the presence of antioxidant enzyme was established. The results suggest that HLSOD is an effective *O2- scavenger in semen that leads to protection of sperm functions.
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PMID:Cu/Zn-superoxide dismutase from the fungal strain Humicola lutea 103 improves ram spermatozoa functions in vitro. 1508 50

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