Chlorpromazine as permeabilizer and reagent for detection of microbial peroxidase and peroxidaselike activities

Chlorpromazine was used to perform a test for the detection of microbial peroxidase activities. The compound acts as both a cell permeabilizer and a reagent in the procedure developed which allows the detection of peroxidase and peroxidase like reactions both semiquantitatively in whole cell determinations and quantitatively in cell-free supernatants.     

A novel tetrazolium method for peroxidase histochemistry and immunohistochemistry.

We developed a new method for the histochemical demonstration of peroxidase. This method, which has a novel reaction mechanism, is based on the oxidation of phenol by peroxidase and coupling of this reaction to the reduction of a tetrazolium salt, with the deposition of an insoluble formazan at sites of enzyme activity. This new method was compared with an established diaminobenzidine (DAB) technique for peroxidase histochemistry and immunohistochemistry. Although both methods identified peroxidase activity in myeloid cells of bone marrow biopsy specimens, there was no interference from red cell pseudoperoxidase activity with the phenol-tetrazolium method, in contrast to the diaminobenzidine method. The detection of cytokeratin using an indirect immunoperoxidase technique was compared with both methods for demonstrating peroxidase activity. The phenol-tetrazolium method gave results similar to that obtained with DAB and appeared to be at least as sensitive as DAB in detecting low amounts of antigen. In addition, the production of a formazan as the final reaction product means that the phenol-tetrazolium method is ideally suited for quantitative peroxidase histochemistry. Therefore, the phenol-tetrazolium method represents a useful alternative method to DAB and for certain applications offers significant advantages over DAB.     

Notes on the combined use of V-VIP and DAB peroxidase substrates for the detection of colocalising antigens

 The purpose of the present report was to investigate to what extent the new peroxidase substrate Vector VIP (V-VIP) can be used in combination with DAB chromogen for the unequivocal and permanent detection of colocalising antigens within a single neurone, according to a two-colour paradigm. With this aim, re-trograde tract-tracing with cholera toxin B subunit (CTB) or fluoro-gold (FG) was performed to disclose individual, identified subpopulations of neurones in the primate substantia nigra projecting to the caudate nucleus or to the putamen, respectively. Each tracer was detected by means of a PAP procedure and finally stained brown using DAB as a chromogen. Subsequently, both series of sections were processed for the immunocytochemical detection of tyrosine hydroxylase (TH). TH-immunoreactive neurones were stained purple with the peroxidase substrate V-VIP. As a result of the present procedure, several cell bodies of projection neurones, stained brown, can easily be identified within the primate substantia nigra. Some of these neurones additionally displayed purple TH immunoreaction product located in the neuronal dendrites. By contrast, CTB- or FG-unlabelled neurones only show the typical purple precipitate that belongs to V-VIP substrate, both in the cell body as well as in the dendrites. Accepted: 20 January 1999     

Immunohistochemical detection of human gastrointestinal glutathione peroxidase in normal tissues and cultured cells with novel mouse monoclonal antibodies.

This is the first report to describe the successful detection of human gastrointestinal glutathione peroxidase in normal tissues by Western blotting and immunohistochemical staining techniques. Four hybridoma clones producing monoclonal antibodies (MAbs) against the human gastrointestinal glutathione peroxidase were established from mice immunized with a gastrointestinal glutathione peroxidase-derived peptide. The MAbs did not crossreact with other members of the glutathione peroxidase family, be it cellular glutathione peroxidase, phospholipid hydroperoxide glutathione peroxidase, or extracellular glutathione peroxidase. Although the MAbs were found to react with a 24-kD protein in a Western blotting assay using gastric carcinoma cell extracts as antigen, they did not react with a B-lymphoblastoid cell extract. Immunohistochemical staining showed gastrointestinal glutathione peroxidase localized in the cytoplasm and in the nucleus of gastric carcinoma cells. Moreover, gastrointestinal glutathione peroxidase was detected in tissue extracts of human stomach, small intestine, large intestine, liver, and gallbladder by Western blotting, and its localization was immunohistochemically confirmed in the mucosal epithelia of the basal area of gastric pits and intestinal crypts.     

IQPA: Isothermal nucleic acid amplification-based immunoassay using DNAzyme as the reporter system

Immunoassays are often coupled to peroxidase activity for antigen detection. Sensitivity and speed of detection has been increased by the advent of hybrid methods such as immuno-PCR (polymerase chain reaction). However, a more simplified immunoassay that retains both colorimetric peroxidase detection and effective DNA amplification in a setting closer to field application conditions has been nonexistent. Here we describe a method that successfully combines a competitive immunoassay with the new isothermal quadruplex-primed amplification (QPA) to generate excess quadruplex reporter molecules with intrinsic peroxidase DNAzyme activity.     

Effects of variation in glutathione peroxidase activity on DNA damage and cell survival in human cells exposed to hydrogen peroxide and t-butyl hydroperoxide.

The selenium-dependent glutathione peroxidase activities of two human cell lines, the colon carcinoma HT29 and the mesothelioma P31, cultured in medium containing 2% serum, increased from 195 to 541 and from 94 to 361 units/mg of protein respectively after supplementation with 100 nM-selenite. The catalase activity remained unchanged by this treatment. The effects of the obtained variation in glutathione peroxidase activities were investigated by exposing cells to H2O2 and t-butyl hydroperoxide. Selenite supplementation resulted in a decrease in H2O2-induced DNA single-strand breaks in both HT29 and P31 cells. A small, but significant, decrease in the number of DNA single-strand breaks for low doses (10-50 microM) of t-butyl hydroperoxide was found only in P31 cells and not in HT29 cells. We could detect neither induction of double-strand breaks (detection limit approx. 1000 breaks per cell) nor DNA-protein cross-links after exposing the cells to the two peroxides. In spite of the apparent protective effect of increased glutathione peroxidase activity on DNA single-strand break formation, there were no differences between selenite-supplemented and non-supplemented cells in cell survival after exposure to peroxide.     

Subcellular localization of peroxidase in tomato fruit skin and the possible implications for the regulation of fruit growth

The cessation of tomato fruit growth has been associated with the appearance of three 'wall-bound' peroxidase isozymes in the skin of tomato fruit. However, the presence of these isozymes in the ionically eluted 'wall-bound' fraction may be an artefact of either non-specific binding of symplastic peroxidase to the cell wall, or isozymes bound to membranes included in the 'wall-bound' fraction. Therefore, subcellular localization of peroxidase in both immature and mature tomato fruit skins was studied. Immature fruits showed intense peroxidase activity associated with the tonoplast and pro-vacuolar membranes, but little or no activity associated with the cell wall. However, the presence of peroxidase activity within the cell wall of mature green fruits was confirmed. Furthermore, peroxidase activity was also observed associated with the plasma membrane and large vesicles allied to the plasma membrane. While cross-linking in cell wall components was previously assumed to be the mechanism by which peroxidase might control fruit growth, the incorporation of 'lignin-like' phenolics may also play a part. Isoelectric focusing (IEF) of both symplastic and apoplastic peroxidase extracted from immature and mature tomato fruit skin showed that all peroxidase isozymes present were highly anionic. In this current study, histochemical techniques are used to demonstrate a developmental increase in 'lignin-like' phenolics within the sub-cuticular cell walls of the fruit skin. The localization of peroxidase within tomato fruit skin is discussed in relation to its potential role in the regulation of tomato fruit growth.     

Intra- and Extracellular Localization of Lignin Peroxidase during the Degradation of Solid Wood and Wood Fragments by Phanerochaete chrysosporium by Using Transmission Electron Microscopy and Immuno-Gold Labeling

The distribution of lignin peroxidase during degradation of both wood and woody fragments by the white rot fungus Phanerochaete chrysosporium was investigated by using anti-lignin peroxidase in conjunction with postembedding transmission electron microscopy and immuno-gold labeling techniques. The enzyme was localized in the peripheral regions of the fungal cell cytoplasm in association with the cell membrane, fungal cell wall, and extracellular slime materials. In solid wood, lignin peroxidase was detected in low concentrations associated with both superficial and degradation zones within secondary cell walls undergoing fungal attack. A similar but much greater level of extracellular peroxidase activity was associated with wood fragments degraded by the fungus grown under liquid culture conditions optimal for production of the enzyme. Efforts to infiltrate degraded wood pieces with high levels of lignin peroxidase showed the enzyme to be restricted to superficial regions of wood decay and to penetrate wood cell walls only where the wall structure had been modified. In this respect the enzyme was able to penetrate characteristic zones of degradation within the secondary walls of fibers to sites of lignin attack. This suggests a possibility for a close substrate-enzyme association during wood cell wall degradation.     

甘露醇和6—BA处理对水稻细胞过氧化物酶及IAA氧化酶活性的影响

研究了甘露醇和６０ＢＡ处理对水稻服浮细胞再分化、过氧化物酶及ＩＡＡ氧化酶的影响。结果表明,甘露醇处理能延迟水稻细胞衰老,提高细胞再分化能力,降低细胞过氧化物酶和ＩＡＡ氧化酶活性,６－ＢＡ（２ｍｇ／Ｌ）虽然明显降低细胞过氧化物酶活性,但对ＩＡＡ氧化酶及细胞衰老无明显影响,讨论了过氧化物酶及ＩＡＡ氧化酶在水稻胚性细胞形成上的可能作用。     

Peroxidase activity in calluses and cell suspension cultures of radishRaphanus sativus var. Cherry Bell

Calluses ofRaphanus sativus var. Cherry Bell were induced in a medium containing 2,4-dichlorophenoxyacetic acid and benzyladenine. The biomass and peroxidase activities were determined, both in agar cultures and cell suspension cultures. Different growth-regulator concentrations induced different responses measured as peroxidase activity in callus. The suspended-cell cultures showed the importance of selecting the cell line, in order to obtain an optimal response in extracellular peroxidase activity. The commercial production of this enzyme by utilizing plant cell tissue cultures is discussed.     

Expression and characterization of recombinant human eosinophil peroxidase. Impact of the R286H substitution on the biosynthesis and activity of the enzyme.

Hereditary eosinophil peroxidase deficiency is a genetic abnormality characterized by a decrease or absence of peroxidase activity and a reduction of the granule matrix volume. Recently, we identified two mutations associated with eosinophil peroxidase deficiency in a subject and his siblings, i.e. a base insertion causing the appearance of a premature stop codon and a base transition causing the replacement of an Arg at codon 286 with a His (R286H). In this article we report the stable expression of both the recombinant wild-type and the R286H eosinophil peroxidase precursor in the K-562 cell line, and the effects of the R286H substitution on the structure and function of the eosinophil peroxidase precursor. Heme group incorporation into both the recombinant wild-type and the recombinant R286H eosinophil peroxidase precursor was comparable, as was the stability of both proteins. Instead, the recombinant R286H eosinophil peroxidase precursor exhibited marked alterations of the catalytic properties and an increased sensitivity to four peroxidase inhibitors with respect to both the recombinant wild-type eosinophil peroxidase precursor and the native enzyme. In addition, the recombinant wild-type, but not the R286H, eosinophil peroxidase precursor was immunoprecipitated by two anti-(eosinophil peroxidase) mAbs. Altogether, our results suggest a protein misfolding of the R286H eosinophil peroxidase precursor which might account for its altered catalytic properties and the absence of expression of some epitopes.     

毛竹竹秆基本组织发育过程中过氧化物酶的超微定位

利用电镜细胞化学技术对毛竹竹秆基本组织发育过程中过氧化物酶进行了细胞化学定位。基本组织细胞过氧化物酶活性由胞间隙处的胞间层开始逐渐向中间推进,同期过氧化物酶体、内质网等细胞器也具有酶活性,随后质膜和液泡膜出现酶反应物。次生壁形成期长细胞壁上过氧化物酶高活性主要集中在次生壁窄层中,以休眠期酶活性最高。随着年龄的增加,长细胞的过氧化物酶活性逐渐降低,九年生长、短细胞的过氧化物酶活性已很弱。短细胞的酶活性始终高于长细胞,细胞壁、质膜、运输小泡膜和纹孔也都具有较高的酶活性。短细胞伸长停止与高过氧化物酶活性有关。过氧化物酶分布和活性并不完全对应于木质素的沉积部位,短细胞的过氧化物酶可能参与了长细胞壁中木质素的合成。     

The Growth of and Peroxidase Synthesis by Two Carrot Cell Lines

The growth and the synthesis of peroxidase by two carrot lineswere examined. The wild cell line WC grows more rapidly thanthe methotrexate resistant WCA1. However, the amount of proteinreleased into the culture medium is identical for both celllines while there is an approximately 10-fold greater releaseof peroxidase by WCA1. Since the antibodies generated against peanut peroxidase apparentlyreact with peroxidase from carrot cells, the specific peroxidasesynthesis could be determined. The ratio of newly synthesizedprotein to newly synthesized peroxidase confirmed the differentialrelease of peroxidase. The results substantiate the view thatthere is an inverse relationship between growth and peroxidaseactivity of plant cells. Key words: Carrot cell culture, Peroxidase, Secretion, Immunoglobulin G, Radio-immuno-assays     

Can cell wall peroxidase activity explain the leaf growth response of Lolium temulentum L. during drought?

In two experiments, the effect has been investigated of a mildand a more prolonged drought on the spatial distribution ofgrowth, epidermal cell lengths and cell wall peroxidase activitiesin the leaf elongation zone of the grass species Lolium temulentumL. In both experiments drought reduced the size of the elongationzone and local rates of elongation within it. Abrupt increasesin cell wall-associated peroxidase activity occurred at or closeto the position where elongation ceased in the leaf elongationzones of well-watered and mildly drought-stressed plants. Moreprolonged drought caused a 200–300% increase in the cellwallassociated peroxidase activity in the elongation zone only.The significant increase in the elongation zone cell wall peroxidaseactivity and its spatial variation provides evidence of a potentiallycausal role for cell wall-associated peroxidase in restrictingcell expansion during drought. Key words: Cell wall peroxidase, leaf expansion, drought     

Oxidation of tyrosine by peroxidase isozymes derived from peanut suspension culture medium and by isolated cell walls

A comparative study on tyrosine oxidation was made with a pure cationic and anionic peroxidase from peanut cell culture medium. The results showed that both isozymes possessed almost identical capacity to oxidize tyrosine to dityrosine, isodityrosine and polytyrosine with the main difference being the pH optimum (pH 4 for the anionic and pH 7 for the cationic isozyme). Variation of reaction time after 1.5 h incubation had little effect on the quantity and quality of the oxidation products. On the other hand, increase of enzyme units correspondingly increased tyrosine-oxidation. The removal of heme and carbohydrate moieties from the holoenzyme arrested the reaction thereby suggesting the role played by these moieties in stabilizing the active site of peroxidase isoenzymes. Isolated cell wall extracts catalyzed the tyrosine-oxidation equally well as the purified peroxidase. Even though polyclonal antibodies against anionic peroxidase inhibited the in vitro tyrosine reaction they did not affect the tyrosine oxidation by the cell walls, while the cationic antibodies did.Abbreviations A.PRX anionic peanut peroxidase - C.PRX cationic peanut peroxidase - PcAb polyclonal antibodies - ELISA enzyme-linked-immuno-sorbent-assay - TFMS trifluoromethane sulfonic acid     

The selective visualization of lignin peroxidase,manganese peroxidase and laccase,produced by white rot fungi on solid media

A visual method for the selective screening of lignin degrading enzymes, produced by white rot fungi (WRF), was investigated by the addition of coloring additives to solid media. Of the additives used in the enzyme production media, guaiacol and RBBR could be used for the detection of lignin peroxidase (LiP), manganese peroxidase (MnP) and laccase. Syringaldazine and Acid Red 264 were able for the detection of both the MnP and laccase, and the LiP and laccase, respectively, and a combination of these two additives was able to detect each of the ligninases produced by the WRF on solid media.     

Comparative studies of lignin peroxidases and manganese-dependent peroxidases produced by selected white rot fungi in solid media

Abstract The effect of various incubation conditions and media composition on ligninolytic activity by selected strains of white-rot fungi was determined in solid media. When compared to conventional methods using liquid media or woody substrates, this method is fast, simple and also quantitative. Manganese-dependent peroxidase was easily detected in all strains studied. However, detection of lignin peroxidase required optimisation of both growth medium and enzyme assay conditions. Using this method, we showed that the role of nitrogen and oxygen in ligninolytic activity varies and that conditions must be optimised for each individual even within the same species. Furthermore, several white rot fungi produced manganesedependent peroxidase during the primary growth phase. Keywords: Manganese-dependent peroxidase; Lignin peroxidase; White rot fungus     

Role of peroxidase inhibition by insulin in the bovine thyroid cell proliferation mechanism.

Monolayer primary cultures of thyroid cells produce, in the presence of insulin, a cytosolic inhibitor of thyroid peroxidase (TPO), lacto peroxidase (LPO), horseradish peroxidase (HRPO) and glutathione peroxidase (GPX). The inhibitor, localized in the cytosol, is thermostable and hydrophylic. Its molecular mass is less than 2 kDa. The inhibitory activity, resistant to proteolytic and nucleolytic enzymes, disappears with sodium metaperiodate treatment, as an oxidant of carbohydrates, supporting its oligosaccharide structure. The presence of inositol, mannose, glucose, the specific inhibition of cyclic AMP-dependent protein kinase and the disappearance of peroxidase inhibition by alkaline phosphatase and alpha-mannosidase in purified samples confirms its chemical structure as inositol phosphoglycan-like. Purification by anionic interchange shows that the peroxidase inhibitor elutes like the two subtypes of inositol phosphoglycans (IPG)P and A, characterized as signal transducers of insulin action. Insulin significantly increases the concentration of the peroxidase inhibitor in a thyroid cell culture at 48 h. The addition of both isolated substances to a primary thyroid culture produces, after 30 min, a significant increase in hydrogen peroxide (H2O2) concentration in the medium, concomitantly with the disappearance of the GPX activity in the same conditions. The presence of insulin or anyone of both products, during 48 h, induces cell proliferation of the thyroid cell culture. In conclusion, insulin stimulates thyroid cell division through the effect of a peroxidase inhibitor, as its second messenger. The inhibition of GPX by its action positively modulates the H2O2 level, which would produce, as was demonstrated by other authors, the signal for cell proliferation.     

Oxidation of hydroquinone by both cellular and extracellular grapevine peroxidase fractions.

The oxidation of hydroquinone by two peroxidase (EC 1.11.1.7) fractions obtained from the cells and spent medium of cell cultures of grapevine (Vitis vinifera cv Monastrell) has been studied, and their comparative efficacy (kcat/KM ratio) studied in both the H2O2-consuming and hydroquinone-consuming reactions. While the efficacy in the H2O2-consuming reaction is practically identical for both enzyme fractions, the cellular peroxidase has five-fold more efficacy in the hydroquinone-consuming reaction than the peroxidase located in the spent medium. Screening of cellular peroxidases capable of oxidizing hydroquinone on polyacrylamide gels, by means of a staining reaction based on the nucleophilic attack of 4-aminoantipyrine on p-benzoquinone in acidic media, reveals that all the cellular peroxidase isoenzymes are capable of oxidizing hydroquinone, probably yielding a quinone-diimine as a product of the staining reaction. Since isoperoxidases found in cellular fractions are also present in the spent medium, the values found for the different efficacies in the hydroquinone-consuming reaction must be considered as the results of the different proportions in which each peroxidase isoenzyme was found in the two fractions. The localization of a benzoquinone-generating system of high efficacy inside the plant cell, and probably located in vacuoles, is discussed with respect to the harmful role which the quinone/semiquinone pair might play in cell death, as part of the hypersensitive response expressed within the mechanism of plant disease resistance.