EC:1.11.1.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.11.1.7 (peroxidase)
65,474 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Desferrioxamine (DFO) nearly doubles alkaline phosphatase oxidative inactivation by the ascorbate system. The effect is dependent on ascorbate and desferrioxamine concentrations, exhibiting in both cases a saturation mechanism. Conversion of desferrioxamine to ferrioxamine abolishes the prooxidant action. Desferrioxamine also increases ascorbate-dependent oxygen consumption and nitroblue tetrazolium reduction. Superoxide dismutase, which blocks the desferrioxamine enhancing effect on enzyme inactivation, markedly slows down nitroblue tetrazolium reduction as well as oxygen consumption by ascorbate plus desferrioxamine, while it fails to protect against the ascorbate system alone. Therefore, in the presence of desferrioxamine, the metal-catalyzed ascorbate autooxidation becomes superoxide-dependent and thus inhibitable by superoxide dismutase. Catalase, peroxidase, and ascorbate oxidase protect alkaline phosphatase from inactivation by both ascorbate and ascorbate-desferrioxamine systems. Hemin shields the enzyme from ascorbate plus DFO attack but not from ascorbate alone. In air-saturated solution, desferrioxamine seems to mediate one electron transfer from ascorbate to oxygen, generating superoxide anions, which can either trigger a Fenton reaction or produce desferal nitroxide radicals. In the absence of oxygen, ascorbate alone is ineffective, but the ascorbate plus desferrioxamine system still inactivates the enzyme; catalase, peroxidase, and ascorbate oxidase, but not superoxide dismutase, afford protection.
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PMID:Prooxidant action of desferrioxamine: enhancement of alkaline phosphatase inactivation by interaction with ascorbate system. 215 77

A possible approach to the immunotherapy of tumors is to stimulate either specific or nonspecific immune responses in vivo. We recently found that provision of a mitogenic signal to PBMC, by incubation with the oxidizing mitogens, enhanced the effect of IL-2 in generating cytolytic activity. We therefore searched for a mitogen that might safely be administered to patients. The present study is an investigation of the mitogenic properties of iron and tin (Sn)-protoporphyrin and their capacity to induce cytotoxicity in human PBMC. These agents have been administered to humans with little toxicity. Both iron- (hemin) and Sn-protoporphyrin induce mitogenicity in peripheral T cells. This effect is markedly enhanced by low concentrations of IL-2. Hemin and Sn-protoporphyrin, in combination with IL-2, increase IL-2R on PBMC. Hemin alone, and to a greater extent in combination with IL-2, induces cytotoxicity for NK-sensitive and NK-resistant cell lines. Sn-protoporphyrin, a more potent mitogen than hemin, fails to induce cytotoxicity, and has a marked inhibitory effect on cytotoxicity induced by IL-2. Hemin and Sn-protoporphyrin stimulate TNF-alpha and IFN-gamma production by PBMC. IL-2 is synergistic with the metalloporphyrins in eliciting this effect. Metalloporphyrin-induced mitogenesis has a stringent requirement for macrophages. Scavengers of oxygen-free radicals and inhibitors of peroxidase inhibit mitogenicity induced by hemin but not that induced by Sn-protoporphyrin. Hence, an oxidative event may mediate the mitogenic effect of hemin. Our results indicate that hemin is an immunostimulatory agent in vitro and the data warrant further evaluation of its in vivo immunostimulatory and antitumor effect.
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PMID:Immune stimulatory properties of metalloporphyrins. 251 45

A number of substances have been shown to enhance the respiratory burst (RB) of macrophages. Many of these substances are not normally found in vivo. The present study suggests that a group of enzymes characterized as peroxidases have the ability to significantly enhance the RB and concomitant phagocytosis by murine peritoneal macrophages. Horseradish peroxidase (HRP), lactoperoxidase (LPO), and microperoxidase (MPO) can significantly augment these functions. Both resident and thioglycollate-induced macrophages exhibited enhanced chemiluminescence (CL) upon exposure to HRP, however, the effect was more pronounced with the latter. The increase in CL was correlated with an increase in production of superoxide, which was measured by reduction of cytochrome c. Horseradish peroxidase immobilized on an inert carrier, was capable of enhancing the RB suggesting that it does not have to enter the cell in order to function. Hemin, hematoheme and hematoporphyrin had little effect on macrophage stimulated CL. All of the peroxidases tested caused increased phagocytosis of opsonized zymosan. These studies indicate that peroxidases are capable of stimulating the RB, phagocytosis and possibly other macrophage functions.
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PMID:Peroxidase-induced enhancement of chemiluminescence by murine peritoneal macrophages. 284 69

Hemin, having two carboxyl groups, was coupled with monomethoxypolyethylene glycol, PEG, through the ester bond formed with carbodiimide. The PEG-modified hemin was readily soluble not only in neutral aqueous solution but also in organic solvents. Its absorption spectrum in 1,1,1-trichloroethane showed a sharp Soret band at 398 nm. The modified hemin catalyzed the peroxidase-reaction in organic solvent and in aqueous solution using hydrogen peroxide or peroxidized linolenic acid as hydrogen acceptor and o-phenylene diamine as hydrogen donor. The activity of PEG-hemin in 1,1,1-trichloroethane was greater than that in an aqueous solution; k1 values in 1,1,1-trichloroethane were 2.3 X 10(3) M-1 sec-1 with hydrogen peroxide and 7.0 X 10(2) M-1 sec-1 with peroxidized linolenic acid, and the value in an aqueous solution was 3.0 X 10 M-1 sec-1 with hydrogen peroxide.
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PMID:Polyethylene glycol-modified hemin having peroxidase activity in organic solvents. 287 1

Hemin, having two carboxyl groups, was coupled with alpha-(3-aminopropyl)-omega-methoxypoly(oxyethylene) through the acid-amide bond formed with carbodiimide. The modified hemin catalyzed the peroxidase reaction in 1,1,1-trichloroethane using benzoyl peroxide or peroxides in unsaturated fatty acids as the hydrogen acceptor and leuco crystal violet as the hydrogen donor. A basic study on quantitative microanalysis of the lipid peroxides was attempted.
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PMID:An attempt to determine lipid peroxides with polyethylene glycol-modified hemin. 356 19

The first step in metabolic activation of mutagenic and carcinogenic heterocyclic amines has been elucidated to be N-hydroxylation by cytochrome P-448. N-Hydroxyamino compounds are further activated to form N-O-acyl derivatives that readily react with DNA. The adducts between the metabolites of Trp-P-2 and Glu-P-1 and DNA were shown to have a C8-guanylamino structure. In the case of Glu-P-1, modification of guanine in GC clusters occurred preferentially. Glutathione transferases and myeloperoxidase were shown to inactivate some heterocyclic amines or their active metabolites. Hemin and fatty acids bind to and inactivate them. Fibers and other factors from vegetables also work to inactivate heterocyclic amines. Nitrite at low pH also degraded some heterocyclic amines, but those with an imidazole moiety were resistant. Glu-P-1 induced intestinal tumors in a high incidence when fed orally to rats. When 14C-Glu-P-1 was administered by gavage into rats about 50% and 35% were excreted into feces and urine, respectively, within 24 hr. When the bile was collected, around 60% of radioactivity was excreted into it within 24 hr. In the bile, N-acetyl-Glu-P-1 was identified as one of the metabolites of Glu-P-1. It showed a mutagenic activity of about one fourth that of Glu-P-1 with S9 mix. Some radioactivity was also detected in the blood. At 24 hr after administration, most of the radioactivity was found to be bound to erythrocyte beta-globins and serum proteins including albumin.
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PMID:Metabolic aspects of pyrolysis mutagens in food. 375 43

A simple and rapid method for the purification of glutathione S-transferase is described. The physical and kinetic properties of purified enzyme are reported. The protein is constituted of two identical subunits with a total molecular weight of 46,000 daltons. The isoelectric focusing of crude cytosol or purified preparation gives a single peak of activity with a pI of 7.1. The kinetic analysis shows a relatively strict substrate specificity. Only 1-chloro-2,4-dinitrobenzene is conjugated to reduced glutathione at an appreciable rate. The peroxidase activity of the enzyme with respect to cumene hydroperoxide as substrate is negligible. Hemin and bilirubin are competitive inhibitors of catalytic activity.
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PMID:Glutathione S-transferase from beef heart: structural and kinetic properties. 400 33

The cellular origin of the K 562 cell line, established from a patient in the blast crisis of chronic myeloid leukemia has been investigated. In agreement with previous reports, an erythroid differentiation was observed. A minority of immature, but hemoglobinized erythroblasts were identified both by electron microscopy and by immunofluorescence using an antibody to gamma-globin chains. Embryonic and fetal hemoglobin (Hb) were synthesized. Hemin increased the number of erythroblasts as well as the absolute amount of Hb synthesized: the Hb pattern was also significantly modified. By cytochemical ultrastructural detection of peroxidase activity (PA), a weak PA, distinct from granulocytic peroxidases, was found exclusively in the nuclear envelope and rough endoplasmic reticulum in a small number proportion of cells. In its localization this PA resembled that of normal and leukemic promegakaryoblasts. The addition of sodium butyrate or dimethylformamide markedly increased the number of these cells (up to 30%) but did not modify their cytoplasmic maturation. No modification of Hb synthesis was observed. Cloning of the K 562 line revealed a marked heterogeneity from one clone to another in Hb production, in the phenotype of Hb synthesis, and in the inducibility by butyrate or dimethylformamide. An inverse relationship between the number of cells with PA and Hb production was found in the different clones. Recloning some of these primary clones resulted in secondary clones, which displayed properties similar to those from which they had originated. All attempts to obtain granulocytic differentiation by addition of different inducers failed. These results clearly indicate that the K 562 cell line arises from the proliferation of bipotent stem cells, these cells possessing variable capacities of differentiation toward erythroid and presumably megakaryocytic cell lineages.
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PMID:Heterogeneity in the cellular commitment of a human leukemic cell line: K 562. 694 84

Hemin can substitute for horseradish peroxidase as a catalyst for the aerobic oxidation of isobutanal to acetone and formate. Previous studies have shown that the chemiphosphorescent emission observed in the enzyme-catalyzed reaction is due to the production of acetone in its triplet state. Although no chemiphosphorescence is observed with the model system (hemin), generation of triplet acetone in this system is indicated by an analysis of data for energy transfer to the 9,10-dibromoanthracene-2-sulfonate ion and for interception of the excited species by the sorbate ion, a known triplet quencher. These data are compared to those obtained with triplet acetone generated by thermal cleavage of tetramethyldioxetane in aqueous solution. The results are in agreement with the hypothesis that the quenching of triplet acetone by oxygen is less efficient in the enzyme catalyzed reaction, pointing to a protective role for the apoenzyme in that system.
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PMID:Hemin-catalyzed generation of triplet acetone. 739 46

The human leukemic cell line LAMA-84 was established and characterized as an erythromegakaryocytic cell line. In the present study we show that these cells can differentiate in estrone-treated athymic mice and give rise to an erythroeosinophilic cell line (LAMA-87). This new cell line expressed glycoporin A, alpha beta and gamma globin chain mRNA but also eosinophilic peroxidase. Hemin slightly increased the total hemoglobin production of the cells and phorbol diester (TPA), dimethyl sulfoxide (DMSO) and sodium butyrate (SB) increased the expression of megakaryocytic markers (gpIIb/IIIa complex). When inoculated into non-treated athymic mice, LAMA-87 cells can differentiate to give rise to eosinomonocytic cells (LAMA-88). This new cell line expresses eosinophilic peroxidase, Luxol fast blue stain and synthesizes lysozyme. Depending on the inducer used, LAMA-88 can differentiate along a monocytic lineage (TPA, DMSO, SB and vitamin D3). These three LAMA cell lines should be useful in further studies of the molecular regulation of the pluripotent cell commitment and may provide a model for the understanding of human hematopoiesis.
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PMID:Selection and characterization of an erythroeosinophilic subclone (LAMA-87) and an eosinophilic subclone (LAMA-88) from the multipotential cell line LAMA-84. 799 72

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