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)

The effect was studied on immature and adult female rats. Oestradiol, given either once (10 micrograms) or three times (3 X 10 micrograms) subcutaneously significantly retarded the total weight gain of immature rats whereas, at the same time, the weight of the uteri increased several fold. The weights of neither salivary nor lacrimal glands were dependent on oestradiol. The activity of the peroxidase enzyme, a marker of oestrogen-responsive tissues, increased significantly in the rat uteri but had no effect on lacrimal peroxidase. The levels of rat salivary peroxidase increased during oestradiol administration with considerable differences between various glands. The increase in peroxidase activities could not be explained by changes in the total protein content but seemed to be specific for this enzyme. Experiments using [3H]-oestradiol indicated specific binding to uterus, parotid and submandibular glands. It is concluded that rat salivary glands are oestrogen-responsive.
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PMID:Effect on peroxidase activity and specific binding of the hormone 17 beta-oestradiol and rat salivary glands. 657 16

The hypothiocyanite ion (OSCN-) is the principal oxidation product of the salivary peroxidase-thiocyanate (SCN-)-hydrogen peroxide antimicrobial system. Supplementation of human saliva in vitro and in vivo with low amounts (less than 1.0 mM) of hydrogen peroxide increase the concentration of salivary OSCN- (in vivo up to 0.3 mM). Elevated concentrations of OSCN- are strongly antimicrobial and may therefore be protective against dental caries. However, as OSCN- is a highly-reactive oxidizing agent, its possible toxic effect on human cells was studied using gingival fibroblasts as target cells. Concentrations of OSCN- (up to 300 microM) had no effect on [3H]-thymidine incorporation into the cells. However, fibroblasts were sensitive to peroxide so that 100 microM of H2O2 caused over 80 per cent reduction in [3H]-thymidine incorporation. The toxicity of H2O2 could be entirely prevented by adding lactoperoxidase and SCN- to the cell culture before the addition of peroxide. Thus, conversion of toxic H2O2 to non-toxic OSCN- in fibroblast culture by lactoperoxidase and SCN- suggests a dual role for the salivary peroxidase system: protection of human cells from H2O2 toxicity and antimicrobial action against oral pathogens. Furthermore, the elevated concentrations of OSCN- which produce inhibition of bacterial metabolism did not damage human cells.
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PMID:The protective effect of peroxidase and thiocyanate against hydrogen peroxide toxicity assessed by the uptake of [3H]-thymidine by human gingival fibroblasts cultured in vitro. 658 87

Antigen-binding receptor (ABR) molecules have been selectively radiolabeled and isolated from immunized chicken spleen cells. The specific radiolabeling of the receptors has been accomplished by utilizing a novel technique employing lactoperoxidase (LPO) covalently linked to antigen (Ag) for which human gammaglobulin was used. The cell surface ABRs were first bound to the Ag-LPO conjugates through specific recognition sites on the Ag portion of the conjugates. The bound LPO portions were then allowed to catalyze the radioiodination of the ABRs. After radiolabeling, cells were solubilized with detergents. ABRs still bound to Ag-LPO conjugates were directly isolated from the lysates via immunoaffinity chromatography utilizing an immunoaffinity reagent directed toward the antigen portion of the ABR-Ag-LPO complex. The radioactive materials isolated in this way were then analyzed via SDS-PAGE under reducing conditions. It appears that as expected, most of the specifically-labeled and isolated materials were immunoglobulin (Ig). Both the membrane-bound form of the heavy chain (mol. wt 77 K) as well as the secreted form (mol. wt 67 K) were detected, along with the light chain (mol. wt 25 K). An additional polypeptide of mol. wt 55 K was also selectively labeled and isolated along with the Ig. This may be a molecule closely associated with the membrane immunoglobulin on B-cell surface.
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PMID:A novel method for radiolabeling antigen-binding receptors of lymphocytes. 660 58

Salivary peroxidase activity is known to increase at the middle of the menstrual cycle, and we report changes in electrophoretic patterns of salivary peroxidase over the same period. Peroxidase during the early follicular and late luteal phases of the menstrual cycle has been resolved into three forms by polyacrylamide gel electrophoresis. An additional, low mobility peroxidase has been detected at midcycle when two electrophoretic forms occurring at other times are reduced; this is coincident with the peak in total peroxidase activity. Available evidence suggests that this ovulatory peroxidase represents a catalytically active aggregate of the peroxidases normally present in saliva.
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PMID:Changes in the electrophoretic pattern of salivary peroxidase at the middle of the menstrual cycle. 665 88

Pinocytic vesicles (pinosomes) and lysosomes from suspension cultured, Chinese hamster ovary (CHO-S) cells have been resolved as two non-overlapping organelle populations by analytical centrifugation in Percoll gradients. Pinosomes were labeled with either horseradish peroxidase (HRP), a fluid phase content marker, or by radioiodination by pinocytosed lactoperoxidase (LPO). CHO-S cell lysosomes followed by three different marker enzymes and electron microscopy behaved as a single, dense organelle population. Pinosomes were partially resolved from plasma membrane, a less dense organelle population.
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PMID:Characterization of pinocytic vesicles from CHO cells: resolution of pinosomes from lysosomes by analytical centrifugation. 685 Aug 66

Resonance Raman scattering from cow milk lactoperoxidase (LPO) and its complexes with various electron donors and inhibitors was investigated. The Raman spectrum of LPO is strikingly close to that of hog intestinal peroxidase but distinctly dissimilar to that of horseradish peroxidase (HRP). The v10 frequency suggested the six-coordinate high-spin structure of heme for native LPO in contrast with the five-coordinate high-spin structure for HRP. For the v10 band, benzohydroxamic acid caused a frequency shift with HRP but not with LPO. Guaiacol, o-toluidine, and histidine brought about a frequency shift of the v4 mode for LPO but not for HRP. The frequency shift was restored upon removal of the substrate or inhibitor by dialysis. The down shift of the v4 frequency is considered to represent an appreciable donation of electrons from the substrate or inhibitor to the porphyrin LUMO and thus their direct interaction with the heme group. From the relative intensity of the shifted and unshifted v4 lines, the dissociation constant was determined to be Kd = 52 mM for guaiacol and Kd = 87 mM for histidine at pH 7.4. The binding of histidine was relatively retarded in the presence of sulfate anion (Kd = 150 mM for 0.53 M sulfate present), and imidazole alone yielded no frequency shift, indicating the binding of the carboxyl group of histidine to the protein cationic site on one hand and a weak charge-transfer interaction between the imidazole group and the heme group on the other.
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PMID:Distinct heme-substrate interactions of lactoperoxidase probed by resonance Raman spectroscopy: difference between animal and plant peroxidases. 687 Nov 62

Proteins involved in the attachment of murine L cells to polystyrene have been identified by a technique designed to iodinate only those macromolecules coming into closet apposition to the substratum. Whereas soluble lactoperoxidase (LPO) catalyzes the radioiodination of a broad spectrum of polypeptides, the same enzyme immobilized on polystyrene tissue culture flasks discriminately labels 55,000 and 42,000 mol wt polypeptides that adhere tightly to the substratum after the cells are removed. One-dimensional peptide mapping following limited proteolysis showed that the labeled 55,000 mol wt polypeptide is similar to a component of comparable molecular weight present in the detergent-extracted cytoskeleton. The functional association of two cytoskeletal structures, presumably 10-nm filaments and actin, is discussed, and alternative explanations for their susceptibility to iodination by immobilized LPO are presented.
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PMID:Use of immobilized lactoperoxidase to label L cell proteins involved in adhesion to polystyrene. 689 17

The antimicrobial oxidizing agent hypothiocyanite ion (OSCN-) was measured in resting (drooling) and stimulated (expectorated) whole saliva. Stimulation of the saliva flow rate resulted in a rapid decrease in OSCN- concentration, whereas the thiocyanate ion (SCN-) concentration and peroxidase activity were increased. The decrease in OSCN- levels was greater than could be accounted for by dilution of the whole saliva volume. Assuming that the antimicrobial activity of the salivary peroxidase system is proportional to OSCN- concentration, this system may be more effective in resting saliva than in stimulated saliva.
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PMID:Peroxidase antimicrobial system of human saliva: hypothiocyanite levels in resting and stimulated saliva. 695 43

The antimicrobial effect of the lactoperoxidase (LPO) system (enzyme with the thiocyanate ion and hydrogen peroxide) on Streptococcus mutans NCTC 10449 (serotype c) was significantly enhanced when the system was combined with secretory IgA. Similar enhancement was observed with LPO-myeloma IgA1 or IgA2 combinations. This enhancement of the antimicrobial efficiency was not dependent on the presence of specific antibodies to S. mutans in the IgA preparation, but seemed to require binding between LPO and immunoglobulin. However, neither human polyclonal nor myeloma IgG or IgM nor rabbit IgG enhanced the antibacterial activity of the LPO system. None of the immunoglobulins, when added alone, produced antimicrobial effects. LPO was shown to bind to colostral secretory IgA, myeloma IgA1, IgA2, and to a lesser degree to monoclonal and polyclonal IgG and monoclonal IgM. This binding had a stabilizing effect on the enzyme activity. Our results suggest that IgA significantly enhances the antibacterial efficiency of one of the innate immune factors--the LPO system.
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PMID:Interaction of specific and innate factors of immunity: IgA enhances the antimicrobial effect of the lactoperoxidase system against Streptococcus mutans. 705 95

The lactoperoxidase-catalyzed oxidation of thiocyanate (SCN-) was studied by two different polarographic techniques: direct current polarography and linear sweep voltammetry. The main oxidation product at pH 6.5, with a half-wave potential (E1/2) of -0.39 to -0.44 V, was identified as hypothiocyanite (OSCN-) ion. The E1/2 for OSCN- was not available in the literature. The identification of OSCN- was based on a close correlation between the current of the OSCN- peak and the concentration of chemically assayed OSCN-. Also the specific rates of decay of the current and that of chemically detectable OSCN- were similar, and both curves followed apparent first-order kinetics. Subsequently, the addition of a reducing agent (2-mercaptoethanol) resulted in immediate disappearance of both chemically detectable OSCN- and the OSCN- wave in the polarograms. All three components of the lactoperoxidase (LPO) system (SCN-, H2O2, and LPO) were needed to produce the OSCN- peak. Addition of excess H2O2 or H2O2-LPO to an OSCN--SCN- mixture resulted in a formation of a new peak with a characteristic peak potential (Ep) of -0.20 to -0.25 V. The generation of this new peak was associated with a simultaneous, markedly enhanced decrease of OSCN- concentration, indicating a possible reaction between H2O2 (or H2O2-LPO) and OSCN-. No equivalent reaction was obtained by the addition of buffer alone. This new peak may represent higher oxy acids of SCN- (O2SCN-, O3SCN-), formed in the oxidation of OSCN- by H2O2 or by H2O2-LPO. This type of reaction can explain why, in solutions which already contain OSCN- (e.g., in saliva), the addition of H2O2 results in the formation of highly reactive, short-lived antimicrobial products in addition to OSCN-.
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PMID:Lactoperoxidase-catalyzed oxidation of thiocyanate: polarographic study of the oxidation products. 706 7

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