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)

Bleaching of chlorophyllin, a water soluble copper containing porphyrin molecule, was investigated with regard to the potential role of active oxygen intermediate involvement. It was found that the bleaching was highly aerobic and also biphasic in nature. The aerobic photobleaching and the dark bleaching were effectively prevented by the addition of reductants such as ascorbate and cysteine. In addition, the reductant and peroxyl radical scavenger, Trolox, was highly effective in preventing bleaching. Catalase was moderately effective in preventing photobleaching whereas peroxidase and superoxide dismutase hastened the photobleaching process. It is concluded that the bleaching of chlorophyllin is a peroxidative process which does not involve singlet oxygen, superoxide, nor the .OH radical.
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PMID:Active oxygen intermediates and chlorophyllin bleaching. 880 3

Thymocyte apoptosis is one of the best characterized experimental models of apoptosis that can be induced by a variety of stimuli such as glucocorticoids, ionizing radiation, antibodies, and toxins. Recently, it has been suggested that oxidative stress is a common mediator of apoptosis. However, little is known about the production and possible function of reactive oxygen intermediates (ROI) in thymocytes. We used a highly sensitive flow cytometric assay with the hydrogen peroxide-sensitive dye, 2',7'-dichlorofluorescin diacetate (DCFH-DA), to measure intracellular ROI production in rat thymocytes, to study its primary sources, and to compare ROI levels in normal and apoptotic thymocytes. Apoptosis was induced by incubating the cells in the presence or absence of dexamethasone (Dex) at 37 degrees C in vitro. Normal thymocytes spontaneously produced significant amounts of ROI. Catalase or superoxide dismutase did not affect this intracellular fluorescence, presumably due to their failure to penetrate into the cells. However, N-acetyl-L-cysteine significantly attenuated the fluorescence in a dose-dependent manner. Significant inhibition of the intracellular fluorescence was also observed by addition of N-nitro-L-arginine methyl ester (L-NAME), that could not be reversed by L-arginine. The addition of N-nitro-D-arginine methyl ester (D-NAME) also caused considerable inhibition. This indicates that the inhibition by L-NAME or D-NAME is due to a direct scavenging effect, and nitric oxide production is not likely to be involved. In contrast to neutrophils and macrophages whose superoxide anions are released from membrane-bound NADPH oxidase, the production of ROI in thymocytes is likely to originate mainly from mitochondria, as indicated by the inhibitory effect of the addition of rotenone or antimycin A. The addition of lymphocyte simulators phytohemagglutinin (PHA), concanavalin A (Con A), or phorbol 12-myristate 13-acetate (PMA) enhanced intracellular fluorescence of thymocytes. This increase was abrogated by addition of rotenone or antimycin A. The ROI production was decreased with time after incubation of the thymocytes for 1, 3, and 6 h in vitro. The appearance of apoptosis of thymocytes in vitro, as indicated by DNA content of cells by flow cytometry and DNA ladder formation in agarose gel electrophoresis, was delayed, as compared to the time course of the decreased ROI production. The addition of Dex to the culture medium accelerated both of these processes. The results suggest that a decreased spontaneous production of ROI in thymocytes precedes the spontaneous in vitro apoptosis and Dex exaggerates these changes.
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PMID:Decreased production of reactive oxygen intermediates is an early event during in vitro apoptosis of rat thymocytes. 890 94

The aim of the present study was to investigate the effects of biologically important catechols on the cytotoxicity of adriamycin, farmorubicin, and mitomycin C with respect to hydroxyl radical production. Catecholamines (adrenalin, noradrenaline, dopamine) and DOPA enhance the generation of hydroxyl radicals by chemotherapeutic antibiotics. Measures were done using a deoxyribose assay, in presence of the Co(II) + H2O2 system. Catalase and hydroxyl radical scavengers (mannitol, thiourea, cysteine, glutathione, L-lactic dehydrogenase) inhibited the deoxyribose damage caused by the drugs.
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PMID:Effects of catechols on free radical formation by chemotherapeutic agents (adriamycin, farmorubicin, and mitomycin). 939 96

Pervanadate and permolybdate are irreversible protein-tyrosine phosphatase inhibitors, with IC50 values of 0.3 and 20 microM, respectively, in intact cells. Maximal inhibition was obtained within 1 min at higher concentrations of the compounds. They induced prominent changes in the phosphorylation status of the gap junction protein, connexin43. These effects were utilized as model systems to assess the stability and inactivation of the compounds. Although the concentrated stock solutions were relatively stable, the diluted compounds were unstable. The biological activity had decreased to 20-30% after 6 h of incubation in a phosphate buffer, 1 h in phosphate buffer with 10% fetal calf serum, and 1-3 minutes in culture medium. Thiols reacted rapidly with the compounds and inactivated them (initial reaction rates with cysteine: permolybdate > pervanadate > H2O2). Catalase inactivated the compounds, and permolybdate was the more sensitive. The cells inactivated permolybdate faster than pervanadate. Cellular inactivation of permolybdate, and to a lesser degree pervanadate, appeared to be partly dependent on catalase and thiols. However, a general decrease in cellular thiols was not the mediator of the biological effects of pervanadate or permolybdate. Mathematical modeling of the thiol reactivity suggested that monoperoxovanadate at maximum could possess 20% of the biological activity of diperoxovanadate.
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PMID:Properties of pervanadate and permolybdate. Connexin43, phosphatase inhibition, and thiol reactivity as model systems. 954 50

Regional hyperthermia has potential for human cancer treatment, particularly in combination with systemic chemotherapy or radiotherapy. The mechanisms involved in heat-induced cell killing are currently unknown. Hyperthermia may increase oxidative stress in cells, and thus, oxidative stress could have a role in the mechanism of cell death. We use hydrogen peroxide as a model oxidant to improve understanding of interactions between heat and oxidative stress. Heat increased cytotoxicity of hydrogen peroxide in Chinese hamster ovary cells. Altered levels of cellular antioxidants should create an imbalance between prooxidant and antioxidant systems, thus modifying cytotoxic responses to heat and to oxidants. We determine the involvement of the two cellular antioxidant defenses against peroxides, catalase and the glutathione redox cycle, in cellular sensitivity to heat, to hydrogen peroxide, and to heat combined with the oxidant. Defense systems were either inhibited or increased. For inhibition studies, intracellular glutathione was diminished to less than 15% of its initial level by treatment with L-buthionine sulfoximine (1 mM, 24 h). Inhibition of catalase was achieved with 3-amino-1,2,4-triazole (20 mM, 2 h), which caused a 80% decrease in endogenous enzyme activity. To increase antioxidants, cells were pretreated with the thiol-containing reducing agents, N-acetyl-L-cysteine, 2-oxo-4-thiazolidine carboxylate, and 2-mercaptoethane sulfonate. These compounds increased intracellular glutathione levels by 30%. Catalase activity was increased by addition of exogenous enzyme to cells. We show that levels of glutathione and catalase affect cellular cytotoxic responses to heat and hydrogen peroxide, either used separately or in combination. These findings are relevant to mechanisms of cell killing at elevated temperatures and suggest the involvement of oxidative stress.
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PMID:Enhancement of cytotoxicity of hydrogen peroxide by hyperthermia in chinese hamster ovary cells: role of antioxidant defenses. 1006 50

Arsenic, widely distributed in the environment, is a potent human carcinogen. Arsenite genotoxicity has been observed in a variety of cells and animal systems. However, the underlying mechanism is not completely clear. In this study, human fibroblasts (HFW) were treated with 1.25-10 microM arsenite for 24 h (low dose and long exposure) and 5-80 microM for 4 h (high dose and short exposure), and the arsenite accumulation, cytotoxicity, and micronucleus (MN) induction were examined. By these two different protocols, HFW cells showed equivalent levels of arsenite accumulation, but exhibited different kinetics of cell killing and different types of MN generation. Arsenite induced mainly kinetochore-positive MN (K+-MN) in HFW cells by low dose exposure whereas mainly kinetochore-negative MN (K--MN) was induced by high dose exposure. Catalase reduced both K+- and K--MN induced by these two exposure protocols. Except for the case of K+-MN induction by the high dose exposure protocol, N-acetyl-cysteine (NAC) in both low and high dose protocols was also shown to effectively reduce arsenite-induced MN. The present results imply that oxidative stress is involved in arsenite-induced MN in diploid human fibroblasts. However, different protocols for arsenite exposure may result in different cellular damage.
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PMID:Effects of exposure protocols on induction of kinetochore-plus and -minus micronuclei by arsenite in diploid human fibroblasts. 1009 30

Our objective is to clarify the role of reactive oxygen species (ROS) in the atrophying tail of anuran tadpoles (tail apoptosis). Changes in catalase, superoxide dismutase (SOD) and caspase activity, genomic DNA, and nitric oxide (NO) generation were investigated biochemically using Rana japonica tadpole tails undergoing regression during thyroid hormone enhancement. DNA fragmentation and ladder formation with concomitant shortening of tadpole tail were induced by DL-thyroxine (T4) in culture medium. Catalase activity was also decreased by T4 treatment. T4 was also found to increase NO synthase (NOS) activity in cultured tadpole tail with concomitant increase in the concentration of NO2- plus NO3- (NOx) in the culture medium. Additional treatment with N-monomethyl-L-arginine (NMMA), a potent inhibitor of NOS, suppressed the enhancing effects of T4 on tail shortening and catalase activity reduction. It was also found that treatment with isosorbide dinitrate (ISDN), a NO generating drug, alone also had an enhancing effect on tail shortening and catalase activity reduction similar to that seen with T4. Both NO and an NO donor (ISDN) strongly suppressed catalase activity. Kinetic analysis revealed that catalase activity decreased and caspase-3-like activity increased during normal tadpole tail atrophy (apoptosis). These results suggested that T4 enhances NO generation, thereby strongly inhibiting catalase activity, resulting in an increase in hydrogen peroxide, and that the oxidative stress elicited by excess hydrogen peroxide might activate cysteine-dependent aspartate-directed protease-3 (caspase-3-like protease), which is thought to cause DNA fragmentation, leading to apoptosis.
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PMID:Thyroxine enhancement and the role of reactive oxygen species in tadpole tail apoptosis. 1023 45

We have cloned a gene of Schizosaccharomyces pombe homologues to the glutathione peroxidase gene. The cloned gene, named gpx1(+), encoded a protein that was 158 amino acids in length and had a molecular mass of 18 kDa. The gpx1(+) gene is homologous with many glutathione peroxidase genes but the selenocysteine codon (UGA) position of mammalian genes is a cysteine codon (UGU) in S. pombe. gpx1(+) mRNA was induced by various stresses, including oxidative stress, osmostress and heat stress. These stresses activate the Wis1-Sty1/Spc1 MAP kinase cascade in S. pombe. Transcriptional factors Atf1 and Pap1 are under the control of this MAP kinase. In the disruption of the atf1(+) gene, gpx1(+) was not transcribed or induced. However, the expression of gpx1(+) was not affected by the disruption of the pap1(+) gene. These results indicated that gpx1(+) was under the control of transcription factor Atf1. Catalase can detoxicate H(2)O(2) in the same way as GPx and the disruptant of the catalase gene of S. pombe is hypersensitive to H(2)O(2). The catalase gene disruptant of S. pombe harbouring multicopy plasmid containing gpx1(+) restored the hypersensitivity to H(2)O(2) of the catalase gene disruptant. These results suggest that Gpx1 acts as a scavenger of H(2)O(2) in vivo.
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PMID:Schizosaccharomyces pombe homologue of glutathione peroxidase, which does not contain selenocysteine, is induced by several stresses and works as an antioxidant. 1045 35

Various modulation factors for the cytotoxic action of epigallocatechin gallate (EGCG) against two human oral tumor cell lines (HSC-2, HSG) were investigated. Three anticancer drugs (tamoxifen, sulindac, doxorubicin), two metals (CuCl2, FeCl3) and two antioxidants (sodium ascorbate, tiopronin) did not significantly affect the cytotoxic activity of EGCG, Catalase and N-acetyl-L-cysteine only marginally reduced the cytotoxic activity of EGCG. On the other hand, CoCl2 significantly protected the cell injury induced by EGCG. This suggests that the site of EGCG action might be intracellular rather than extracellular. Possible involvement of the expression of transcription factor (s) for EGCG-induced cytotoxicity is discussed.
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PMID:Effect of anticancer drugs, metals and antioxidants on cytotoxic activity of epigallocatechin gallate. 1062 98

Activation of ERK-1 and -2 by H(2)O(2) in a variety of cell types requires epidermal growth factor receptor (EGFR) phosphorylation. In this study, we investigated the activation of ERK by ONOO(-) in cultured rat lung myofibroblasts. Western blot analysis using anti-phospho-ERK antibodies along with an ERK kinase assay using the phosphorylated heat- and acid-stable protein (PHAS-1) substrate demonstrated that ERK activation peaked within 15 min after ONOO(-) treatment and was maximally activated with 100 micrometer ONOO(-). Activation of ERK by ONOO(-) and H(2)O(2) was blocked by the antioxidant N-acetyl-l-cysteine. Catalase blocked ERK activation by H(2)O(2), but not by ONOO(-), demonstrating that the effect of ONOO(-) was not due to the generation of H(2)O(2). Both H(2)O(2) and ONOO(-) induced phosphorylation of EGFR in Western blot experiments using an anti-phospho-EGFR antibody. However, the EGFR tyrosine kinase inhibitor AG1478 abolished ERK activation by H(2)O(2), but not by ONOO(-). Both H(2)O(2) and ONOO(-) activated Raf-1. However, the Raf inhibitor forskolin blocked ERK activation by H(2)O(2), but not by ONOO(-). The MEK inhibitor PD98059 inhibited ERK activation by both H(2)O(2) and ONOO(-). Moreover, ONOO(-) or H(2)O(2) caused a cytotoxic response of myofibroblasts that was prevented by preincubation with PD98059. In a cell-free kinase assay, ONOO(-) (but not H(2)O(2)) induced autophosphorylation and nitration of a glutathione S-transferase-MEK-1 fusion protein. Collectively, these data indicate that ONOO(-) activates EGFR and Raf-1, but these signaling intermediates are not required for ONOO(-)-induced ERK activation. However, MEK-1 activation is required for ONOO(-)-induced ERK activation in myofibroblasts. In contrast, H(2)O(2)-induced ERK activation is dependent on EGFR activation, which then leads to downstream Raf-1 and MEK-1 activation.
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PMID:Peroxynitrite targets the epidermal growth factor receptor, Raf-1, and MEK independently to activate MAPK. 1080 94

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