UMLS:C0272170 - FACTA Search

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Query: UMLS:C0272170 (SDS)
50,377 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat liver microsomes oxidized ethanol two to three times faster than propanol when incubated with either an NADPH- or an H2O2-generating system. In addition, solubilized, purified microsomal subfractions were found to contain protein with an electrophoretic mobility identical to rat liver catalase on SDS polyacrylamide gels, suggesting that the separation of catalase from cytochrome P-450 and other microsomal components may not be feasible. These data support the postulate that catalase is responsible for NADPH-dependent microsomal ethanol oxidation. Direct read-out techniques for pyridine nucleotides, the catalase-H2O2 complex, and cytochrome P-450 were utilized to evaluate the specificity of inhibitors of alcohol dehydrogenase (4-methylpyrazole; 4 mM) and catalase (aminotriazole; 1.0 g/kg) qualitatively in perfused rat livers. 4-Methylpyrazole and aminotriazole are specific inhibitors for alcohol dehydrogenase and catalase, respectively, under these conditions. Neither inhibitor nor a combination of them altered the mixed function oxygen of p-nitroanisole to p-nitrophenol as observed by oxygen uptake and product formation. When ethanol utilization was measured over the concentration range 20-80 mM in perfused liver, a concentration dependence was observed. At low concentrations of ethanol, ethanol oxidation was almost totally abolished by 4-methylpyrazole; however, the contribution of 4-methylpyrazole-insensitive ethanol uptake increased as a function of ethanol concentration. At 80 mM ethanol, ethanol utilization was nearly 50% methylpyrazole-insensitive. This portion of ethanol oxidation, however, was abolished by aminotriazole. The data indicate that alcohol dehydrogenase and catalase-H2O2 are responsible for hepatic ethanol oxidation. At low ethanol concentrations (less than 20 mM), alcohol dehydrogenase is predominant; however, at higher ethanol concentrations (up to 80 mM), the contribution of catalase-H2O2 to overall ethanol utilization is significant. No evidence that the endoplasmic reticulum is involved in ethanol metabolism in the perfused liver emerged from these studies.
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PMID:Significant pathways of hepatic ethanol metabolism. 24 Jul 43

Polymorphonuclear leukocytes (PMNs) have been implicated in the pathogenesis of inflammatory gingivitis and periodontitis. To further study the role of PMNs in mediating gingival injury, we cocultured these cells in vitro with monolayers of human gingival epithelial cells. Scanning electron microscopy revealed that the epithelial cells were homogeneous and SDS-PAGE/immunoblot analysis identified the presence of keratins K3, K13 and the K6/16 pair which authenticated the oral origin of the cells. Injury to the gingival cells was determined by scanning electron microscopy and measurement of cell detachment and cytolysis. Unstimulated PMNs produced minimal lysis or detachment, but PMNs stimulated by phorbol myristate acetate produced marked epithelial cell detachment without lysis, which was time- and PMN-dose-dependent. Supernatants of activated PMNs were similarly effective, indicating that the mediator was a stable soluble substance. Elastase and cathepsin G, two neutral proteases of PMN origin, produced time- and concentration-dependent detachment of gingival epithelial cells, suggesting that these enzymes may mediate this form of injury. In other studies, gingival epithelial cells were exposed to PMN myeloperoxidase (MPO), chloride and glucose plus glucose oxidase (GO) as a hydrogen peroxide (H2O2) generating system. The toxic oxygen species produced by this system caused lysis of the epithelial targets which was dependent on the duration of incubation and the concentrations of MPO and GO. Azide, an inhibitor of MPO, and catalase, a scavenger of H2O2, inhibited the lytic activity of this system. Scanning electron micrographs of gingival epithelial cells cocultured with activated PMNs showed lifting of the cells from the plating surface, while target cells attacked by the MPO system revealed extensive damage of cell membranes. These studies indicate that activated PMNs cause nonlytic detachment injury to gingival epithelial cells which may be mediated by digestion of their extracellular matrix by granule neutral proteases. Furthermore, PMN MPO is capable of generating toxic oxygen species which can lyse these epithelial cells. Collectively, these actions could have profound adverse effects on the function and integrity of the gingival epithelium.
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PMID:Neutrophil-mediated damage to human gingival epithelial cells. 131 Oct 41

The purpose of this study was to explore the role of singlet oxygen in cardiovascular injury. To accomplish this objective, we investigated the effect of singlet oxygen [generated from photoactivation of rose-bengal] on the calcium transport and Ca(2+)-ATPase activity of cardiac sarcoplasmic reticulum and compared these results with those obtained by superoxide radical, hydrogen peroxide and hydroxyl radical. Isolated cardiac SR exposed to rose bengal (10 nM) irradiated at (560 nm) produced a significant inhibition of Ca2+ uptake; from 2.27 +/- 0.05 to 0.62 +/- 0.05 mumol Ca2+/mg.min (mean +/- SE) (P less than 0.01) and Ca(2+)-ATPase activity from 2.08 +/- 0.05 mumol Pi/min.mg to 0.28 +/- 0.04 mumol Pi/min.mg (mean +/- SE) (P less than 0.01). The inhibition of calcium uptake and Ca(2+)-ATPase activity by rose bengal derived activated oxygen (singlet oxygen) was dependent on the duration of exposure and intensity of light. The singlet oxygen scavengers ascorbic acid and histidine significantly protected SR Ca(2+)-ATPase against rose bengal derived activated oxygen species but superoxide dismutase and catalase did not attenuate the inhibition. SDS-polyacrylamide gel electrophoresis of SR exposed to photoactivated rose bengal up to 14 min, demonstrated complete loss of Ca(2+)-ATPase monomer band which was significantly protected by histidine. Irradiation of rose bengal also caused an 18% loss of total sulfhydryl groups of SR. On the other hand, superoxide (generated from xanthine oxidase action on xanthine) and hydroxyl radical (0.5 mM H2O2 + Fe(2+)-EDTA) as well as H2O2 (12 mM) were without any effect on the 97,000 dalton Ca(2+)-ATPase band of sarcoplasmic reticulum.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Singlet oxygen: a potential culprit in myocardial injury? 131 3

The effects of xanthine + xanthine oxidase-generated reactive oxygen species (ROS) on rabbit muscle creatine kinase (CK) were studied. Xanthine (0.1 mM) + xanthine oxidase (30 mU/ml) inhibited activity of rabbit muscle CK (1.2 mU/ml). Catalase (100 U/ml), but not SOD (100 Uml), deferoxamine (100 microM) or mannitol (20 mM), protected CK from inactivation; suggesting that H2O2 was responsible for inactivation. These results were different from previously reported findings on bovine heart CK that superoxide radicals inactivate the enzyme. Thus, enzymes with homologous structures may have different reactivities to different ROS. H2O2-induced inactivation of rabbit muscle CK was accompanied by a decrease in its thiol group content, whereas no significant changes in the protein structure were detected by SDS-PAGE or carbonyl content. These results suggest that oxidation of -SH groups by H2O2 seems to be a major mechanism of activation of rabbit muscle CK by xanthine + xanthine oxidase. Such inactivation of CK by H2O2 may be important in ROS-induced pathology.
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PMID:Inactivation of rabbit muscle creatine kinase by hydrogen peroxide. 132 Oct 75

The site-specific lysozyme damage by iron and by iron-catalysed oxygen radicals was investigated. A solution of purified lysozyme was inactivated by Fe(II) at pH 7.4 in phosphate buffer, as tested on cleavage of Micrococcus lysodeikticus cells; this inactivation was time- and iron concentration-dependent and was associated with a loss of tryptophan fluorescence. In addition, it was reversible at pH 4, as demonstrated by lysozyme reactivation and by the intensity of the 14.4-kD-band on SDS-PAGE. Desferal (1 mM) and Detapac (1 mM) added before iron, prevented lysozyme inactivation, while catalase (100 micrograms/ml), superoxide dismutase (100 micrograms/ml) and bovine serum albumin (100 micrograms/ml) gave about 30 to 40% protection by competing with lysozyme for iron binding. The denaturing effect of iron on lysozyme was studied in the presence of H2O2 (1 mM) and ascorbate (1 mM); under these conditions the enzyme underwent partly irreversible inactivation and degradation different to that produced by gamma radiolysis-generated .OH. Catalase almost fully protected lysozyme; in contrast, mannitol (10 mM), benzoate (10 mM), and formate (10 mM) provided no protection because of their inability to access the site at which damaging species are generated. In this system, radical species were formed in a site-specific manner, and they reacted essentially with lysozyme at the site of their formation, causing inactivation and degradation differently than the hydroxyl radical.
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PMID:Mechanism of lysozyme inactivation and degradation by iron. 133 14

Previously we established that immediately after pretreatment with low concentrations (5-10 micrograms/ml) of formaldehyde antigen- and ionophore-induced histamine secretion was enhanced from peritoneal mast cells (PMC) isolated from rats infected with Nippostrongylus brasiliensis. In contrast to immediately following pretreatment with low concentrations of formaldehyde, 3 h after a 30-min treatment with formaldehyde (10, 50 and 100 micrograms/ml) antigen-induced histamine secretion from PMC was significantly depressed, and 35S-methionine incorporation was also decreased. To further explore the effects of formaldehyde on mast cells, we investigated protein biosynthesis of PMC following formaldehyde treatment and compared this with the effects of hydrogen peroxide (H2O2) or heat treatment. One- and two-dimensional SDS-PAGE were used to assess the effects. Formaldehyde treatment induced the synthesis of 70- and 72-kD stress-like proteins in rat PMC. Pretreatment of PMC with 50 microM H2O2 and heat (45 degrees C) also induced proteins with the same molecular weight. Two-dimensional SDS-PAGE analysis established that formaldehyde-induced 70-kD proteins had the same pI values as 70-kD heat shock proteins previously observed in mammalian cells. These results suggest that formaldehyde, H2O2 and heat shock induce stress proteins in rat PMC. It will be important to establish whether or not these stress proteins are responsible for the functional alterations observed in the mast cells.
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PMID:Mast cell response to formaldehyde. 2. Induction of stress-like proteins. 138 65

1. A procedure is described for the purification of catalase and a peroxidase active fraction from human white adipose tissue. 2. Gel electrophoresis on SDS-PAGE revealed relative molecular masses of 202,900 and 208,600 for the active catalase and peroxidase molecules respectively (nonreducing conditions), as compared to 56,800 and 49,800 for the monomers under reducing conditions, thus indicating the likelihood of tetramers in the intact state. 3. The two purified enzymes differ with regard to pH optima (5-9 for catalase and 3 for peroxidase), temperature stability (up to 50 degrees C for catalase and 70 degrees C for peroxidase) and Km values towards H2O2 (38.9 mM for catalase and 7.69 mM for peroxidase, which was also active in oxidizing a number of o-dihydricphenols as second substrates). 4. The catalase enzyme showed uncompetitive inhibition by the irreversible inhibitor 3-amino-1,2,4-triazole (AT), Ki = 5.4 mM.
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PMID:The isolation and partial characterization of catalase and a peroxidase active fraction from human white adipose tissue. 139 3

The reactivity of the endogenous antioxidants ascorbate, ergothioneine, and urate toward the high oxidation state of sperm whale myoglobin, ferrylmyoglobin-formed upon oxidation of metmyoglobin by H2O2--was evaluated by optical spectroscopy and SDS-PAGE analysis. Depending on whether these antioxidants were present in the reaction mixture before or after the addition of H2O2 to a metmyoglobin suspension, two different effects were observed: (a) In the former instances, ascorbate, ergothioneine, and urate reduced efficiently the oxoferryl moiety in ferrylmyoglobin to metmyoglobin and prevented dimer formation, a process which requires intermolecular cross-link involving specific tyrosyl residues. In addition, all the reducing compounds inhibited--albeit with different efficiencies--dityorosine-dependent fluorescence build up produced via dimerization of photogenerated tyrosyl radicals. (b) In the latter instances, the antioxidants reduced the preformed sperm whale ferrylmyoglobin to a modified metmyoglobin, the spectral profile of which was characterized by a blue shift of the typical 633 nm absorbance of native metmyoglobin. In addition, under these experimental conditions, the antioxidants did not affect dimer formation, thus indicating the irreversible character of the process. The dimeric form of sperm whale myoglobin--separated from the monomeric form by gel electrophoresis of a solution in which ergothioneine was added to preformed ferrylmyoglobin--revealed optical spectral properties in the visible region identical to that of the modified myoglobin. This suggests that the dimeric form of the hemoprotein is redox active, inasmuch as the oxoferryl complex can be reduced to its ferric form. These results are discussed in terms of the potential reactivity of these endogenous antioxidants toward the reducible loci of ferrylmyoglobin, the oxoferryl moiety, and the apoprotein radical.
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PMID:Reduction of sperm whale ferrylmyoglobin by endogenous reducing agents: potential reducible loci of ferrylmyoglobin. 139 21

It is well known that some micro-organisms synthesize proteins when stressed by heat or other factors. The function of these proteins is not yet clear, but some of them are believed to be related to resistance against a hostile environment. Histoplasma capsulatum is an intracellular pathogenic fungus that multiplies inside macrophages and resists macrophage microbicidal mechanisms. To study the defense mechanisms of H. capsulatum and mimic the hostile environment the fungus may encounter during infection, we investigated protein synthesis by H. capsulatum (isolate G217B) when stressed by heat (40 degrees C), low pH (pH 4), or oxidative products (H2O2) using [35S]-methionine labelling. Analysis of cytosol proteins by SDS-PAGE and fluorography disclosed that H. capsulatum increased synthesis of six constitutive proteins and decreased synthesis of six proteins when stressed at 40 degrees C. When stressed by pH 4 or H2O2, H. capsulatum increased the synthesis of eight and five constitutive proteins, respectively, and decreased the synthesis of three proteins. Estimation of superoxide dismutase (SOD) and catalase enzymatic activity in cytosols from stressed H. capsulatum did not reveal an increase of these enzymatic activities compared to cytosols from non-stressed H. capsulatum. These results suggest that H. capsulatum increases the synthesis of some constitutive proteins when stressed by heat, low pH or H2O2, which might relate to pathogenicity, and are thus worthy of further study. These induced proteins are apparently different from SOD or catalase.
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PMID:Induction of stress protein synthesis in Histoplasma capsulatum by heat, low pH and hydrogen peroxide. 146 40

The objective of this study was to characterize the influence of peroxisome proliferation on the metabolism of physiological concentrations of Se. In an initial series of experiments hepatocytes in primary cultures and isolated from ordinary-fed rats, were used. The cells were exposed to 75Se-selenite (30 nM) and after 24 h the labelling of selenoproteins was analysed with SDS-PAGE. Treatments with mono(2-ethylhexyl)phthalate (MEHP; a metabolite of di(2-ethylhexyl)phthalate (DEHP)), nafenopin, decreased oxygen tension and a H2O2 generating system decreased the labelling of a 23-kDa and a 15-kDa protein. The decreased labelling of the 23- and the 15-kDa proteins was usually accompanied by an increased labelling of a 58-kDa protein. Increased oxygen tension induced uncertain effects, possibly due to toxicity. In order to further evaluate the validity of the model, the labelling was also studied in hepatocytes isolated from Se-deficient and torula yeast-fed rats. In these cells there was a decreased labelling of the 23-kDa protein as compared to cells from Se-supplemented controls when 100 nM selenite was used. In in vivo experiments it was found that a DEHP-induced decrease in glutathione peroxidase (GSH-Px) activity was potentiated by high doses of selenite. To a large extent, the labelling data are compatible with enzyme activity data and in vivo data. For example, the decreased labelling of the 23-kDa protein may reflect the decreased GSH-Px activity. It is concluded that the effects induced by MEHP on Se-labelling can be explained by an increase in the steady state level of H2O2.
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PMID:Studies on Se incorporation in selenoproteins; effects of peroxisome proliferators and hydrogen peroxide generating system. 154 Sep 96

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