UNIPROT:P04040 - FACTA Search

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

The effects of 60 min hypoxia and subsequent reoxygenation for 30 min on enzymatic (NADPH-dependent) and nonenzymatic (Fe2+/ascorbate-induced) lipid peroxidation capacities and on antioxidant levels were studied using Langendorff-perfused rat hearts. The assays were done on the myolayer of the right ventricle (RV) and on the subepi- and subendomyolayers of the left ventricle (epi/endo LV) after normoxic, hypoxic, and reoxygenation phases. The region injured by hypoxia/reoxygenation was located mainly in endo LV, seen as a lesser penetration of the fluorescent dye fluorescein in the myocardium. The electron microscopic findings after reoxygenation revealed swelling of the mitochondria, amorphous mitochondrial structures, and formation of paracrystallines. The myofibrillar structure of the cells was disrupted and the cells showed marked fluid accumulation. Membrane structures were marginated and formed blebs and multilamellar bodies. Ultrastructural changes were most prominent in endo LV, especially after reoxygenation. The increase in leakage of lactate in the perfusate revealed the onset of anaerobic metabolism. Abrupt release of the cytoplasmic enzymes lactate dehydrogenase and creatine kinase at the beginning of the reoxygenation phase suggested cell membrane injury. The capacity for Fe2+/ascorbate-induced lipid peroxidation slightly increased in RV and that for NADPH-dependent, enzymatic lipid peroxidation in endo LV after reoxygenation. Catalase, glutathione peroxidase, and superoxide dismutase activities remained unchanged, whereas glucose-6-phosphate dehydrogenase activity decreased after reoxygenation in RV.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enzymatic and nonenzymatic lipid peroxidation capacities and antioxidants in hypoxic and reoxygenated rat myocardium. 270 86

Oxidant injury to the alveolar epithelium can be mediated by exposure to oxidant gases such as O2 at high concentrations and O3, inflammatory cell-derived reactive O2 species, and the intracellular metabolism of xenobiotics such as paraquat. An in vitro model of alveolar epithelial oxidant injury was developed based on exposure of cultured rat type II pneumocytes to superoxide and hydrogen peroxide (H2O2) enzymatically generated in the culture medium. Cytotoxicity was assessed by the release of lactate dehydrogenase (LDH) into the culture medium, which was a more reliable indicator of damage than release of 51Cr by prelabeled cells. Incubation of cells for 6-8 h with xanthine plus xanthine oxidase and glucose plus glucose oxidase induced the release of greater than 50% of total intracellular LDH. Oxidant exposure also resulted in significant detachment of cells from culture dishes. Modulation of oxidant damage was accomplished using liposomes as vectors for the delivery of catalase. Treatment of cells with catalase liposomes for 2 h resulted in augmentation of cellular catalase specific activities up to 631% of controls. Catalase was partitioned into intracellular and surface-associated compartments in catalase liposome-treated cells. Partial and complete protection against oxidant injury, induced by xanthine plus xanthine oxidase and glucose plus glucose oxidase, respectively, was achieved by pretreatment of cells with catalase liposomes. LDH release during oxidant exposure was inversely related to augmentation of cellular catalase activities. Catalase liposome-treated cells also exhibited an enhanced ability to scavenge enzymatically generated H2O2 from the culture medium. These observations suggest a useful approach to modulation of alveolar injury induced by reactive O2 species.
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PMID:Liposome-mediated augmentation of catalase in alveolar type II cells protects against H2O2 injury. 304 Jun 61

The activity of peroxisomal enzymes was studied in human liver and cultured human skin fibroblasts in relation to the finding (Goldfischer, S. et al. (1973) Science 182, 62-64) that morphologically distinct peroxisomes are not detectable in patients with the cerebro-hepato-renal (Zellweger) syndrome. In homogenates of liver from the patients, dihydroxyacetone phosphate acyltransferase, a membrane-bound peroxisomal enzyme, is deficient (Schutgens, R.B.H., et al. (1984) Biochem. Biophys. Res. Commun. 120, 179-184). In contrast, there is no deficiency of the soluble peroxisomal matrix enzymes catalase, L-alpha-hydroxyacid oxidase and E-aminoacid oxidase. Catalase is also not deficient in homogenates of cultured skin fibroblasts from the patients. The results of digitonin titration experiments showed that in control fibroblasts at least 70% of the catalase activity is present in subcellular particles distinct from mitochondria or lysosomes. In contrast, all of the catalase activity in fibroblasts from Zellweger patients is found in the same compartment as the cytosolic marker enzyme lactate dehydrogenase.
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PMID:Activity of peroxisomal enzymes and intracellular distribution of catalase in Zellweger syndrome. 614 39

Neutrophils, isolated in large quantities from porcine blood were disrupted by nitrogen cavitation and separated by differential centrifugation into a nuclear fraction and a post-nuclear supernatant. The latter was subfractionated by sucrose density gradient centrifugation into cytosol, a fraction consisting of membrane vesicles and two granule-rich fractions. The membrane fraction accounted for 1.9% of the protein in the post-nuclear supernatant, the light granule fraction for 2.2% and the dense granule fraction for 4.2%. Catalase, lactate dehydrogenase and malate dehydrogenase were largely confined to the cytosol. The dense granule fraction contained the highest quantities of the hydrolytic enzymes, although the membrane fraction was also rich in alkaline and acid phosphatase and gamma-glutamyl transpeptidase activities. Electron microscopy of the membrane fraction showed intact membrane vesicles, whereas the granular fractions consisted of electron-dense, membrane-bound granules. Two granular fractions were isolated which contained granules of differing size and density. 3H-labeled wheat germ agglutinin bound to the surface of intact neutrophils and when these were disrupted and fractionated the membrane fraction showed a specific binding activity 16-times greater than that of the cavitated sample. The membrane fraction interacted with the detergent digitonin and as a result underwent density perturbation increasing from 1.13 g X cm-3 to 1.18 g X cm-3. Dodecylsulphate-polyacrylamide gel electrophoresis showed the membrane fraction to consist of at least 40 protein bands, with relative molecular masses ranging from 200 000-16 000. The granule fractions contained less protein bands, with a protein composition quite distinct from that of the membrane fraction.
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PMID:Subcellular fractionation of porcine neutrophils by nitrogen cavitation and sucrose-density-gradient centrifugation. 662 89

Streptococcus faecalis var. zymogenes was grown aerobically and anaerobically in the presence and absence of haematin, with glycerol as the carbon and energy source. Aerobic growth was stimulated by the inclusion of haematin in the medium but fumarate had no effect on growth. The bacterium was unable to grow anaerobically on glycerol unless fumarate was present; haematin had no effect on growth. NADH oxidase activity, which catalysed the oxidation of NADH + H+ to form H2O rather than H2O2, was found in the soluble fraction and was induced by aerobic growth but partially repressed when haematin was present in the medium. In contrast, a particulate NADH oxidase, which was sensitive to inhibition by antimycin A and 2-heptyl-4-hydroxyquinoline N-oxide, was induced by aerobic growth in the presence of haematin. NADH peroxidase was massively induced by aerobic growth, whereas more lactate dehydrogenase activity was found in anaerobically grown bacteria. Catalase was formed only during aerobic growth in the presence of haematin.
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PMID:Growth of Streptococcus faecalis var. zymogenes on glycerol: the effect of aerobic and anaerobic growth in the presence and absence of haematin on enzyme synthesis. 680 86

We present in this report the characteristics of the damage induced by 6-hydroxydopamine and H2O2 on bovine chromaffin cells in primary culture. Cytotoxicity was quantified using catecholamine cell contents, lactate dehydrogenase (LDH) release, trypan blue exclusion and morphological appearance. An excellent correlation between these four parameters was found. The cytotoxic effects of 6-hydroxydopamine were Ca(2+)-independent. In spite of this, the Ca2+ channel antagonists R56865 (N-[1-(4-(fluorophenoxy)butyl)]-4-piperidinyl-N-methyl-2-benzo-thiazo lamine) lidoflazine exhibited marked cytoprotective effects against both 6-hydroxydopamine and H2O2. The selective dopamine uptake blocker, bupropion, increased the viability of 6-hydroxydopamine and H2O2-treated cells from 20% to around 80%. Catalase drastically protected against the cytotoxic effects of 6-hydroxydopamine and H2O2. In contrast, desferrioxamine gave better protection against H2O2 cytotoxicity; glutathione and N-acetylcysteine only afforded substantial protection against 6-hydroxydopamine. Three main conclusions emerge from this study. (1st) 6-Hydroxydopamine causes chromaffin cell damage via a mechanism probably related to the production of free radicals, but unrelated to Ca2+ ions. Cytoprotection afforded by R56865 and lidoflazine must be unrelated to their Ca2+ antagonist properties. This suggests a novel component in the cytoprotective mechanism of action of these drugs. (2nd) The strong cytoprotective effects of bupropion seem to be unrelated to its ability to block the plasmalemmal dopamine carrier. (3rd) Bovine adrenal chromaffin cells in primary cultures are a suitable model for adult neurons to study the basic mechanism of cell damage, and to screen new drugs with putative neuroprotective properties.
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PMID:Pharmacological protection against the cytotoxicity induced by 6-hydroxydopamine and H2O2 in chromaffin cells. 767 8

The nature of the compartmentalization of catalase in human myeloid cells is an unresolved issue. Using a rabbit polyclonal antibody specific for catalase, indirect immunocytofluorescence of immature leukemic promyelocytes (HL-60 cells) showed a pattern of small, sharp, punctate staining in the cytoplasm of all cells, while mature neutrophils showed a larger diffuse, flocculent pattern of cytoplasmic staining. Differential centrifugation of nitrogen cavitates of HL-60 cells indicated that the putative catalase-containing compartment was relatively fragile compared with the compartment(s) that contained myeloperoxidase (MPO), beta-hexosaminidase, beta-glucuronidase, and lysosomal alpha-mannosidase activities. Parallel studies using dimethylsulfoxide (DMSO)-induced HL-60 cells and mature neutrophils showed that, in the course of differentiation, there was an apparent shift in the localization of catalase from the granule fraction to the cytosolic fraction. Percoll-sucrose density gradient centrifugation of HL-60 cell cavitates showed a catalase-containing compartment with a mean peak density (1.05 g/mL) significantly lower than that of the major myeloperoxidase-containing compartment (1.08 g/mL); in mature neutrophils, catalase activity comigrated with lactate dehydrogenase (LDH) activity. Catalase in isolated fractions was protected from proteolysis in the absence, but not in the presence, of 0.1% Triton X-100. Digitonin titration experiments confirmed the compartmentalized nature of catalase in immature HL-60 cells and were consistent with a cytosolic localization in mature neutrophils. Ultrastructural localization of catalase by Protein A-gold immunocytochemistry demonstrated four to six catalase-containing compartments in all HL-60 cell profiles. In mature neutrophils, catalase was localized primarily in the cytoplasmic matrix, although in fewer than 2% of the cell profiles, one to two catalase-containing compartments were observed. The changes in catalase localization that occur during myeloid differentiation appear to be similar to the changes that occur during erythroid and megakaryocytic differentiation, and may have potential clinical significance in the classification of acute leukemia and in the development of drug resistance.
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PMID:Changes in the localization of catalase during differentiation of neutrophilic granulocytes. 816 45

A flow-injected thermometric enzyme linked immunoassay for human insulin which employs the lactate dehydrogenase/lactate oxidase (LDH/LOD) substrate recycling system for signal amplification is described. The system is composed of two columns, an immunosorbent column containing immobilized anti-insulin antibodies for sensing and a recycling column containing immobilized LDH/LOD/Catalase for detection. The effect of flow rates, conjugate concentrations, and chromatographic support material upon the sensitivity of the assay are investigated. The assay has a detection limit of 0.025 microgram/ml and a linear range from 0.05 to 2 micrograms/ml. This corresponds to a 10-fold increase in sensitivity over the unamplified system. A recombinant human insulin-proinsulin conjugate was also tested. The results show that enzymatic amplification can be employed to increase the sensitivity and reproducibility of flow injection assay-based biosensors. The implications of these results upon on-line analysis are discussed.
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PMID:Enzymatic amplification of a flow-injected thermometric enzyme-linked immunoassay for human insulin. 821 81

This study was undertaken to examine if modulations of intracellular and extracellular Ca2+ affect the lethal cell injury and impairment of membrane transport function induced by oxidants in rabbit renal cortical slices. The oxidant t-butylhydroperoxide (t-BHP) and H2O2 increased lactate dehydrogenase (LDH) release and inhibited PAH uptake in a dose-dependent manner, but the potency of H2O2 was 100 times lower than that of t-BHP. Catalase prevented the effect of H2O2 but not that of t-BHP, suggesting that lower potency of H2O2 is attributed to the endogenous catalase activity. t-BHP induced lipid peroxidation and inhibited microsomal (Na+)-(K+)-ATPase activity. Omission of Ca2+ from the medium or addition of Ca2+ channel blockers (verapamil, diltiazem, and nifedipine) prevented the oxidant-induced LDH release. Similar effect was observed by addition of La3+. Buffering intracellular Ca2+ with BAPTA/AM decreased the oxidant-induced LDH release. However, the oxidant-induced impairment in PAH uptake was not altered under the same conditions. Also, the inhibition of microsomal (Na+)-(K+)-ATPase activity by t-BHP was not affected by verapamil, La3+, and BAPTA/AM. Dithiothreitol and glutathione prevented the oxidant-induced LDH release and reduction of PAH uptake and impeded the oxidant-induced inhibition of (Na+)-(K+)-ATPase activity and lipid peroxidation. Effects of t-BHP on TEA uptake were similar to those on PAH uptake. Modulations of intracellular or extracellular Ca2+ had little effect on the oxidant-induced lipid peroxidation. Glycine did not exert protective effect against the oxidant-induced cell injury. These results suggest strongly that Ca2+ plays an important role in the oxidant-induced LDH release but not in the oxidant-induced alterations of membrane transport function in rabbit renal cortical slices. The role of Ca2+ in oxidant-induced LDH release is not apparently associated with peroxidation of membrane lipid.
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PMID:Differential effect of Ca2+ on oxidant-induced lethal cell injury and alterations of membrane functional integrity in renal cortical slices. 897 86

Reactive free radical species appear to be involved in the ischemic injury of cardiac muscle, although the mechanisms by which oxygen-derived free radicals affect the heart cell function are not known. In the present study, cultured ventricular myocytes were exposed to an exogenous oxygen radical generating system. The myocyte-enriched, primary cultures were prepared from ventricles of new-born rat heart and exposed to a xanthine/xanthine oxidase (X+XO) system. The transmembrane potentials were recorded with glass microelectrodes. Cell contractions were monitored photometrically. The release of lactate dehydrogenase (LDH) in the medium was analysed. Quantitative measurement and the time course of the radical generation were performed by the electron paramagnetic resonance (EPR) spin trapping technique with the spin trap 5,5-dimethyl-1-pyroline-N-oxide (DMPO). We verified that X and XO alone had no significant functional and biochemical effects. The X+XO system produced a rapid decrease in the action potential amplitude. This effect was accompanied by a strong decrease in contractility and spontaneous rate. The time course of these functional defects were correlated with a progressive efflux of LDH from the cardiomyocytes. Prolonging the exposure to the X+XO system provoked the cessation of the spontaneous beatings and the progressive loss of the resting diastolic potential, together with a near total release of the cellular LDH. The LDH release and the functional depression were both efficiently prevented by catalase. On the contrary, superoxide dismutase (SOD) slowed down but did not protect against the functional and biochemical effects of the free radicals. In comparison, the EPR spectra obtained indicated that the X+XO system was associated with an important generation of superoxide anions but also with a small hydroxyl production. SOD scavenged the superoxide but a small .OH production persisted. Catalase (CAT) did not modify the superoxide generation but decreased the hydroxyl adduct formation. These results suggest that, although the generation of superoxide anions by the X+XO system was higher than the hydroxyl production, the functional injury and enzyme leakage seemed mainly mediated through a hydrogen peroxide-hydroxyl radical pathway. Cultured ventricular myocytes can be thus used as a valuable model to investigate the cellular mechanism of oxidant-induced damage in the heart.
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PMID:Correlation between direct ESR spectroscopic measurements and electromechanical and biochemical assessments of exogenous free radical injury in isolated rat cardiac myocytes. 943 21

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