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:P04040 (Catalase)
3,577 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thyroid hormones play an important role in the control of metabolism of vertebrates. This investigation was carried out to examine the effects of triiodothyronine (T3) and polyunsaturated fatty acids (PUFA) on lipid peroxidation in rat liver. Male Wistar strain of rats treated with 6-propylthiouracil (6-PTU) showed no significant change in lipid peroxidation as evident from the generation of malondialdehyde and conjugated dienes. However, in PUFA fed animals as well as 6-PTU + PUFA + T3 treated groups, increased peroxidation products were found. Superoxide dismutase (SOD) activity was low in 6-PTU, 6-PTU + PUFA, PUFA, 6-PTU + PUFA + T3 treated animals while glutathione peroxidase (GPx) activity was high in these groups. Catalase activity was low in all treated groups except PUFA alone fed animals. Glutathione reductase (GR) activity was decreased by 6-PTU treatment and increased in PTU + PUFA fed rats. Cellular glutathione level was high in PUFA and low in PTU-treated groups. From these results it can be concluded that both T3 and PUFA have profound influence on lipid peroxidation and antioxidant enzyme activities in rat liver.
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PMID:Changes in lipid peroxidation and antioxidant enzyme activities by triiodothyronine (T3) and polyunsaturated fatty acids (PUFA) in rat liver. 1179 65

Catalase is an important antioxidant enzyme, which has been shown to provide cardiac protection from acute toxicity induced by doxorubicin, a most effective anticancer agent. Because cumulative dose-dependent chronic cardiomyopathy due to a long-term administration of doxorubicin is a significant clinical problem, the present study was undertaken to test the hypothesis that catalase also provides protection against doxorubicin chronic cardiotoxicity. Transgenic mice containing cardiac catalase activities of 15-, 60-, or 100-fold higher than normal and nontransgenic controls were treated with doxorubicin in a cumulative dose of 45 mg/kg in five equal iv injections (9 mg/kg every other week) over a period of 10 weeks. On the second day after the last injection, the mice were sacrificed for analysis of cardiotoxicity. As compared to nontransgenic controls, doxorubicin-reduced body weight gain was significantly inhibited in the transgenic mice. There were 15% mortality in nontransgenic mice, but no mortality was observed in transgenic mice during the course of treatment. Light microscopic examination revealed that doxorubicin-induced myocardial morphological changes were markedly suppressed in the transgenic mice in an activity-dependent fashion. Under electron microscopy, extensive sarcoplasmic vacuolization and severe disruption of mitochondrial fine structure were observed in nontransgenic cardiomyocytes, but all markedly suppressed in the transgenic mice. The results indicate that catalase elevation in the heart prevents doxorubicin chronic cardiomyopathy.
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PMID:Inhibition of doxorubicin chronic toxicity in catalase-overexpressing transgenic mouse hearts. 1180 May 90

Amyloid-beta, (Abeta) is a cytotoxic peptide implicated in the pathology of Alzheimers disease. The antioxidant enzyme catalase has been suggested to protect against Abeta cytotoxicity in both neuronal and non-neuronal cell types. Inhibition of endogenous catalase using 3-amino-1,2,4-triazole (3AT) in neuronal (NT-2) and myeloma (SP2/0-Ag-14) cell lines increases Abeta toxicity, suggesting that any protective role for endogenous catalase requires active enzyme. In Abeta treated mveloma cells there was a significant decrease in the total cell catalase activity and immunoreactivity. However, when the surviving live cell population was isolated following Abeta treatment the levels of catalase were significantly increased. The surviving live cell population from groups treated with both 3AT and Abeta contain elevated immunoreactive catalase levels suggesting that the protective role for endogenous catalase may have a component independent of the antioxidant activity, possibly by acting as an Abeta binding protein. Amyloid-beta (Abeta) cytotoxicity can be prevented by Vitamin E treatment or an anti-Abeta monoclonal antibody (ALIOI), both of which also prevent Abeta cytotoxicity in cells treated with 3AT These observations suggest that Abeta mediated cell death in both neuronal and non-neuronal cells is mediated in part by actions to increase hydrogen peroxide. Catalase has a protective role, as a hydrogen peroxide-degrading enzyme and catalase inhibition by Abeta is not the direct cause of cytotoxicity.
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PMID:Inhibition of catalase activity with 3-amino-triazole enhances the cytotoxicity of the Alzheimer's amyloid-beta peptide. 1182 10

In situ rabbit hearts were subjected to 15 min of regional myocardial ischemia, and at various time points of reperfusion, antioxidant enzyme activity and mRNA expression were measured in ischemic and nonischemic myocardium. Catalase activity increased significantly in both ischemic and nonischemic myocardium, peaking at 1 h after reperfusion and then gradually returning to the control level. Northern blot analysis showed enhanced expression of catalase mRNA in both areas. There were no changes in redox status, because glutathione levels were not altered by ischemia-reperfusion (I/R). We also tested whether catalase activation in the heart results from signaling pathways that might influence not only the heart but also other organs. We found that catalase activity in the brain was increased after myocardial I/R and ischemic stress to the intestine was equipotent to myocardial I/R in catalase activation. We next sought to elucidate the possible involvement of the adrenergic system in catalase stimulation induced by ischemic stimuli. After pretreatment with the alpha-adrenergic receptor antagonist prazosin, I/R failed to increase catalase activity in the heart and brain. Intravenous norepinephrine increased catalase activity in the heart, brain, and liver. This study shows that brief I/R activates a signaling mechanism to induce catalase activation in multiple organs and the alpha-adrenergic system is involved as an intermediate pathway in this signal transmission.
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PMID:Involvement of adrenergic pathways in activation of catalase by myocardial ischemia-reperfusion. 1195 89

Adduct formation has been considered to be a major causal factor of DNA damage by carcinogenic heterocyclic amines. By means of experiments with an electrochemical detector coupled to a high-performance liquid chromatograph, we revealed that N-hydroxy metabolite of 2-amino-1-methyl-6-phenylimidazo [4,5-b] pyridine (PhIP) induced the formation of 8-hydroxy-2'-deoxyguanosine (8-OH-dG) in the presence of Cu(II). Addition of an endogenous reductant NADH enhanced the 8-OH-dG formation. Experiments with (32)P-labeled DNA fragments showed that this metabolite [PhIP(NHOH)] caused 8-hydroxylation of guanines in the presence of Cu(II) and NADH, and subsequent treatment with formamidopyrimidine-DNA glycosylase led to chain cleavages at the 5'-site guanine of GG and GGG sequences. Interestingly, antioxidant enzyme SOD enhanced the intensity of DNA damage, and thymine residues were appended to its guanine-predominant cleavage sites. Catalase and bathocuproine, a Cu(I)-specific chelator, inhibited the DNA damage, suggesting the involvement of H(2)O(2) and Cu(I). A UV-visible spectroscopic study indicated that Cu(II) and SOD catalyze the autoxidation of PhIP(NHOH). These results suggest that Cu(II)-dependent autooxidation of PhIP(NHOH) coupled with NADH-mediated reduction of its oxidized product form redox cycle, resulting in oxidative DNA damage by low concentrations of PhIP(NHOH). We conclude that in addition to DNA adduct formation, oxidative DNA damage may be involved in the carcinogenic process of PhIP.
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PMID:Oxidation of 5'-site guanine at GG and GGG sequences induced by a metabolite of carcinogenic heterocyclic amine PhIP in the presence of Cu(II) and NADH. 1201 60

Catalase, Mn-superoxide dismutase (MnSOD) and Cu,Zn-superoxide dismutase (CuZnSOD) activities were studied in rat liver and kidney 6-48 h after CdCl(2) intraperitoneal administration or 10-30 days daily oral CdCl(2) intake in drinking water. This approach provided some indications as to the sensitivity of each enzyme to cadmium toxicity. These experiments showed that the formation of thiobarbituric acid reactive substance (TBARS) did not strictly depend on how well the antioxidant enzyme worked. From in vitro experiments it appeared that TBARS removal by vitamin E did not restore the three enzyme activities at all. As for cadmium's inhibitory mechanism on catalase activity, our data, obtained in the pH range 6.0-8.0, are a preliminary indication that the negative effect of this metal is probably due to imidazole residue binding of His-74 which is essential in the decomposition of hydrogen peroxide. Cadmium inhibition of liver mitochondrial MnSOD activity was completely removed by Mn(2+) ions, suggesting that the reducing effect on this enzyme is probably due to the substitution of cadmium for manganese. We also observed the antioxidant capacity of Mn(2+) ions, since they were able to normalize the increased TBARS levels occurring when liver mitochondria were exposed to cadmium. The reduced activity of CuZnSOD does not seem to be due to the replacement of Zn by Cd, nor to the peroxides formed. As this enzyme activity was almost completely recovered after 48 h, we hypothesize that the momentary inhibition is imputable to a cadmium/enzyme interaction. This causes some perturbation in the enzyme topography which is critical for its catalytic activity. The pathological implications linked to antioxidant enzyme disorders induced by cadmium toxicity are discussed.
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PMID:Molecular inhibitory mechanisms of antioxidant enzymes in rat liver and kidney by cadmium. 1220 41

The possible repercussions of osmoregulatory processes on some indicators of classical and oxidative stress were examined during gradual acclimation of sturgeons (Acipenser naccarii) to full seawater (35% salinity) and after a period of 20 approximately days at this salinity. Erythrocyte constants and levels of cortisol, protein and glucose in the plasma were determined. In addition, plasma osmolality and muscle-hydration values, as well as liver and heart protein, were determined. Catalase, glutathione peroxidase and superoxide dismutase activities and lipidperoxidation levels were measured in blood (plasma and red blood cells) and tissue (liver and heart). A number of physiological responses, such as disturbance in body fluid, activation of osmoregulatory mechanisms, augmented antioxidant defences in blood and alteration of energy metabolites, were detected with increasing environmental salinity. After 20 days at 35% salinity, plasma osmolality, erythrocyte constants and muscle water content all returned to values usual for low environmental salinity, indicating that osmoregulatory processes have achieved their objective. However, cortisol values, antioxidant enzyme activities in the blood (plasma and red blood cells), lipid peroxidation in plasma, and hepatic proteins did not return to initial values, showing that osmoregulatory processes cause major physiological changes in the fish.
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PMID:Physiological changes of sturgeon Acipenser naccarii caused by increasing environmental salinity. 1240 96

Insulin-producing cells show very low activity levels of the cytoprotective enzymes catalase, glutathione peroxidase, and superoxide dismutase. This weak antioxidative defense status has been considered a major feature of the poor resistance against oxidative stress. Therefore, we analyzed the protective effect of a combined overexpression of Cu,ZnSOD or MnSOD together with different levels of catalase. Catalase alone was able to increase the resistance of transfected RINm5F insulin-producing tissue culture cells against H(2)O(2) and HX/XO, but no protection was seen in the case of menadione. In combination with an increase of the MnSOD or Cu,ZnSOD expression, the protective action of catalase overexpression could be further increased and extended to the toxicity of menadione. Thus, optimal protection of insulin-producing cells against oxidative stress-mediated toxicity requires a combined overexpression of both superoxide- and hydrogen peroxide-inactivating enzymes. This treatment can compensate for the constitutively low level of antioxidant enzyme expression in insulin-producing cells and may provide an improved protection in situations of free radical-mediated destruction of pancreatic beta cells in the process of autoimmune diabetes development.
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PMID:Sequential inactivation of reactive oxygen species by combined overexpression of SOD isoforms and catalase in insulin-producing cells. 1263 45

tert-Butyl hydroperoxide (t-BOOH), a membrane permeant oxidant, elicits enhanced vasoconstriction of perfused kidney and mesenteric arterial beds isolated from DOCA-salt-induced hypertensive rats. We hypothesize that enhanced vasoconstriction to t-BOOH during DOCA-salt hypertension involves free radical species and decreases in the expression of the endogenous antioxidant enzyme, superoxide dismutase (SOD). t-BOOH (0.01-50 micromol) dose-dependently constricted the perfused kidney and mesenteric vascular beds (MVB) of rats. Infusion of tempol (100 microM), a free radical scavenger, reduced the constrictor responses from 116.70+/-16.65% to 57.45+/-9.25% (kidneys) and from 72.91+/-3.70% to 48.10+/-0.10% (mesenteric beds). t-BOOH-induced vasoconstriction of both vascular beds were also significantly reduced in DOCA-salt rats treated chronically (15 mg/kg ip, 3 weeks) with tempol (DOCA/TEMPOL). Catalase (500 IU) did not attenuate t-BOOH-induced responses in vascular beds of DOCA/TEMPOL rats. Western blot analyses showed significant reduction in Cu/Zn-SOD expression in DOCA-salt versus sham rats of both vascular preparations; SOD expressions were protected from down-regulation in DOCA/TEMPOL vascular beds. This study suggests that free radical species is involved in both t-BOOH-induced constrictions and in the down-regulation of SOD protein expressions during DOCA-salt hypertension.
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PMID:Tert-butyl hydroperoxide-mediated vascular responses in DOCA-salt hypertensive rats. 1264 10

Exercise improves cardioprotection against ischemia-reperfusion in young animals but has not been investigated in older animals, which represent the population most likely to suffer an ischemic event. Therefore, we sought to determine the effects of aging on exercise-induced cardioprotection. Young, middle-aged, and old (4, 12, and 21 mo old) male Fischer 344 rats ran 60 min at 70-75% of maximum oxygen consumption. Twenty-four hours postexercise, isolated perfused working hearts underwent 22.5 min of global ischemia and then 30 min of recovery (reperfusion). Compared with sedentary rats (n = 8-9 rats/group), recovery of function (cardiac output x systolic pressure) improved after exercise (n = 9 rats/group) by 40% at 4 mo, 78% at 12 mo, and 59% at 21 mo. Exercise increased inducible heat shock protein 70 expression 105% at 4 mo but only 27% at 12 mo and 24% at 21 mo. Catalase activity progressively increased with age (P < 0.05) and was increased by exercise at 4 mo (26%) and 21 mo (19%). Manganese superoxide dismutase activity was increased by exercise only at 21 mo (45%). No exercise-related change in any antioxidant enzyme was observed at 12 mo. We conclude that exercise can enhance cardioprotection regardless of age, but the cardioprotective protein phenotype changes with age.
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PMID:Exercise improves postischemic function in aging hearts. 1264 77


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