Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:Q8NEX9 (reductase)
26,410 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Perfusion of the bovine eye with a buffer solution containing t-butyl hydroperoxide and the glutathione reductase inhibitor nitrofurantoin caused significant decreases in reduced glutathione level in ciliary body and iris. The result was interpreted to suggest that the organic hydroperoxide was decomposed by the glutathione peroxidase-reductase system. The glutathione reductase reaction requires NADPH. Since the level of NADPH is maintained by the hexose monophosphate shunt in many tissues, we investigated whether this is also the case with bovine uveal tissues. CO2 formation from [1-14C]glucose but not from [6-14C]glucose was markedly stimulated by t-butyl hydroperoxide and was inhibited by the glutathione reductase inhibitor 1,3-bis(2-chloroethyl)-1-nitrosourea, thus supporting the importance of the hexose monophosphate shunt for hydroperoxide decomposition through the glutathione peroxidase-reductase system. The peroxidase-reductase activity was found both in non-pigmented and pigmented ciliary epithelial cells in culture. Purification studies isolated two forms of glutathione reductase [GR I (140 kDa) with subunit Mr of 70 kDa and GR II (greater than 670 kDa) with subunit Mr of 45 kDa] and a novel glutathione peroxidase (112 kDa with subunit Mr of 29 kDa). The peroxidase is active both with H2O2 and organic hydroperoxides, does not contain selenium and shows no glutathione S-transferase activity.
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PMID:Glutathione-dependent detoxification of peroxide in bovine ciliary body. 237 73

In vitro exposure of a human testicular teratoma continuous cell line to fractionated X-irradiation resulted in the expression of resistance to cisplatin. In two independently-derived sublines, designated SUSA-DXR13 and SUSA-DXR10 resulting from treatment with either 13 fractions of 1.5 Gy (dose required to reduce survival by 1 log) or 10 fractions of 3 Gy (dose required to reduce survival by 2 logs) respectively, the IC50 values for cisplatin were 2- and 3.1-fold higher than that of the parental cell line. These sublines were cross-resistant to carboplatin (approximately 2-fold) but not to adriamycin and they showed unaltered radiosensitivities. The SUSA-DXR10 subline expressed some cross-resistance to mitomycin C and melphalan but none to Carmustine (BCNU). Total glutathione content was significantly reduced in both SUSA-DXR10 and SUSA-DXR13 cells, but the activities of associated enzymes, including the glutathione S-transferases, peroxidase and reductase were not modified significantly in the resistant sublines. Resistance in the SUSA-DXR10 subline was associated with significantly decreased 195mcisplatin uptake (p less than 0.01), but this was not reflected in a reduced level of drug bound to the DNA. The formation and removal of four platinum-DNA adducts were immunochemically quantitated. Immediately following drug treatment there was a higher level of total platination of the DNA in the resistant subline indicative of increased tolerance to DNA damage. After an 18 hr post treatment incubation, there was an indication of some repair capacity in this SUSA-DXR10 cell line, which was not apparent in the parental cells. Neither the parental nor the SUSA-DXR10 cell line was proficient in the repair of the major adduct Pt-GG, whereas both lines repaired the monofunctional adduct and the adduct Pt(GMP)2. SUSA-DXR10 cells were also able to repair the intrastrand adduct Pt-AG and interstrand crosslinks, unlike the repair deficient parental cells. Higher levels of interstrand crosslinks were characteristic of the SUSA-DXR10 subline. These observations therefore implicate both enhanced repair and increased tolerance of DNA damage as mechanisms of resistance to cisplatin resulting from in vitro exposure of a human teratoma cell line to fractionated X-irradiation.
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PMID:Enhanced DNA repair and tolerance of DNA damage associated with resistance to cis-diammine-dichloroplatinum (II) after in vitro exposure of a human teratoma cell line to fractionated X-irradiation. 238 98

Avena sativa L. grains are devoid of ascorbic acid (AA) and of oxidative enzymes (AA oxidase and AA peroxidase), while both reducing enzymes (AFR reductase and DHA reductase) are present. AA biosynthesis in the embryos starts after 12-14 hours of germination and at the same time AA peroxidase activity is detectable. During the following 14 hours the AA peroxidase activity rises up to 28 nmoles/AA oxidated/min/mg/prot. Incubation of Avena embryos with GL (the last precursor of AA according to the Isherwood biosynthetic pathway), results in both earlier AA biosynthesis and enhanced AA peroxidase activity. A 4 hour treatment is enough to induce AA synthesis and AA peroxidase elicitation. These data suggest that the development of AA peroxidase activity is controlled by AA, but they are not sufficient to clarify how that happens. Probably AA induces the synthesis of specific m-RNAs or activates enzymic precursors present in the embryos but still not working.
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PMID:[Comparison of presence of ascorbic acid and the appearance of ascorbate peroxidase activity in embryos of Avena sativa L]. 239 Feb 26

Activity of microsomal hydroxylation and conjugation enzymes was studied in the liver of rats that received food concentrate of protein from sunflower groats (SPC) produced in the USSR, and soya protein isolate (SPI) produced by Ralston Purina, USA. SPC consumption during 3 months was attended by elevation of cytochrome-450 content, and activity of microsomal hydroxylation and uridinephosphate-glucuroniltransferase (UDP-GT) in hepatic microsomes, that may evidence the presence in SPC of chemical compounds of natural origin, or chemical modification of the own amino-acid products. SPI did not influence activity of microsomal hydroxylation enzymes, but it raised UDP-GT activity. Both protein products produced no effect on activity of enzymes associated with glutathione metabolism--glutathione-S-transferase and glutathione-reductase in hepatic cytosol. However, SPC and SPI induced a manifold rise in glutathione-peroxidase activity in cytosol of the liver and blood that indicates the presence of the trace element selenium in the products studied.
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PMID:[Research on xenobiotic metabolism for assessing the quality of protein-containing products from plant raw material produced through biotechnology methods]. 239 85

Nitrogen dioxide (NO2), a major oxidant constituent of vehicle emissions, is toxic to lung cells including endothelial cells. Since NO2 is a reactive free radical, one of the postulated mechanisms of NO2-induced pulmonary injury involves the peroxidation of membrane lipids. Therefore, this study evaluated the dose- and time-dependent effects of nitrogen dioxide exposure by measuring the biochemical and biophysical parameters, as well as the metabolic function, in porcine pulmonary artery and aortic endothelial cells in monolayer cultures. To evaluate the biochemical changes, the antioxidant enzyme GSH-reductase (GSH-red), GSH-peroxidase (GSH-per), and glucose-6-phosphate dehydrogenase (G6PDH) activities, as well as the lipid peroxide formation, glutathione (GSH) content, and lactate dehydrogenase (LDH) release were measured. Biophysical changes were measured by monitoring lipid fluidity in both the hydrophobic and hydrophilic regions of the plasma membrane. The uptake of 5-hydroxytryptamine (5-HT) was measured as a metabolic function of endothelial cells. Confluent porcine pulmonary artery and aortic endothelial cells were exposed to 3 or 5 ppm NO2 or air (control) for 3-24 hours. After 3-, 6-, or 12-hour exposures to 3 or 5 ppm NO2, the GSH-red and G6PDH activities, as well as the lipid peroxide formation and LDH release, were not different from those of controls in both pulmonary artery and aortic endothelial cells. Exposure of the cells to 3 or 5 ppm NO2 for 24 hours resulted in significant increases in GSH-red (p less than 0.05) and G6PDH (p less than 0.001) activities in both cell types. Exposure to 5 ppm NO2 for 24 hours significantly (p less than 0.05) increased lipid peroxide formation and increased (p less than 0.01) LDH release in both the pulmonary artery and aortic endothelial cells. GSH-per activity and GSH content in NO2-exposed pulmonary artery and aortic endothelial cells were not different from those of controls, irrespective of NO2 concentration and exposure time. Fluorescence spectroscopy was used to measure the membrane lipid fluidity. Membrane fluidity in the hydrophobic region was measured by 1,6-diphenyl-1, 3, 5-hexatriene (DPH), an aromatic hydrocarbon that partitions into the hydrophobic interior of the lipid bilayer.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Biochemical and metabolic response to nitrogen dioxide-induced endothelial injury. 247 62

The liver microsomal ethanol-inducible cytochrome P-450 (P-450IIE1) form is known to exhibit a high rate of oxidase activity in the absence of substrate and it was therefore of interest to evaluate whether this form of P-450 could contribute to microsomal and liposomal NADPH-dependent oxidase activity and lipid peroxidation. The rate of microsomal NADPH-consumption, O2--formation, H2O2-production and generation of thiobarbituric acid (TBA) reactive substances correlated to the amount of P-450IIE1 in 28 microsomal samples from variously treated rats. Anti-P-450IIE1 IgG inhibited, compared to control IgG, microsomal H2O2-formation by 45% in microsomes from acetone-treated rats and by 22% in control microsomes. NADPH-dependent generation of TBA-reactive products was completely inhibited by these antibodies, whereas preimmune IgG was essentially without effect. Liposomes containing reductase and P-450IIE1 were peroxidized in a superoxide dismutase (SOD) sensitive reaction at a 5-10-fold higher rate than membranes containing 3 other forms of cytochrome P-450. Lipid peroxidation in reconstituted vesicles dependent on the presence of P-450IIB1 was by contrast not inhibited by SOD. Microsomal peroxidase activities, using 15-(S)-hydroperoxy-5-cis-8,11,13-trans-eicosatetraenoic acid as a substrate were high in microsomes from phenobarbital- or ethanol-treated rats but low in membranes from isoniazid-treated rats, having the highest relative level of P-450IIE1. It is suggested that the oxidase activity of P-450IIE1 contributes to microsomal NADPH-dependent lipid peroxidation. The combined action of the oxidase activity by P-450IIE1 and the peroxidase activities by P-450IIB1 and other forms of P-450 may be important for the high rate of lipid peroxidation observed in e.g. microsomes from ethanol- or acetone-treated rats. The possible importance of cytochrome P-450IIE1-dependent lipid peroxidation in vivo after ethanol abuse is discussed.
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PMID:Rat liver microsomal NADPH-supported oxidase activity and lipid peroxidation dependent on ethanol-inducible cytochrome P-450 (P-450IIE1). 249 1

Dynamics of alterations in activities of catalase, superoxide dismutase (SOD), glutathione-peroxidase (GPx) and-reductase (GR) as well as shifts in content of malonic dialdehyde and in oxidative index values were studied in erythrocytes of 108 persons after the red blood cells contact with molecular oxygen within 70 min; a decrease in values of oxidative index and activation of the enzymatic activity studied were found All the alterations observed were distinctly higher in erythrocyte membranes and depended on the membranes structure and initial activity of the membrane-bound antioxidative enzymes. Treatment of erythrocyte membranes with solutions of high ionic strength showed that catalase and SOD were less rigidly bound to membrane as compared with GPx and GR. Distribution of SOD, GPx and GR activities was similar to normal values in the membranes, while the catalase activity distribution did not follow the Gauss equation. Thus, erythrocyte membranes were divided into two types, depending on the rate of catalase activity (high or low). The first type of membranes with high catalase activity were found to be resistant to peroxidation, exhibited high activity of SOD and low activity of GPx, content of cholesterol was decreased in these membranes.
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PMID:[Indices of human erythrocytes resistance to oxidative stress]. 261 33

The metabolism of chemical carcinogens was investigated in liver preparations from 28 captive woodchucks (Marmota monax). Of these, 23 were naturally infected with the woodchuck hepatitis virus (WHV), and eight also had primary hepatocellular carcinoma (PHC). Twenty-nine parameters were investigated in liver subcellular fractions, including cross-reactivity with HBsAg, and biochemical parameters, such as gamma-glutamyl transpeptidase, cytochrome P-450 and microsomal monooxygenases (aryl hydrocarbon hydroxylase, ethoxycoumarin and ethoxyresorufin deethylases, aminopyrine and dimethylnitrosamine demethylases, and testosterone 7 alpha-, 16 alpha- and 6 beta-hydroxylases), uridine 5'-diphosphoglucuronosyl transferase, GSH and related enzymes (peroxidase, reductase and S-transferase), as well as other cytosolic enzyme activities (glucose 6-phosphate and 6-phosphogluconate dehydrogenases, NADPH- and NADH-dependent diaphorases, and DT diaphorase). In addition, liver preparations were used in order to quantify the metabolic activation into bacterial mutagens of five procarcinogens (aflatoxin B1, the pyrolysis products Trp-P-2 and MeIQ, 2-aminofluorene and dimethylnitrosamine) and the decrease of potency of three direct-acting mutagens (sodium dichromate, ICR 191 and 4-nitroquinoline 1-oxide). WHV infection produced a significant stimulation of carcinogen metabolism, as shown by the simultaneous change in detoxification parameters (GSH depletion) and activation indices (enhancement of microsomal monooxygenases and of procarcinogen activation into mutagenic metabolites). There were no significant differences between WHV-positive samples from animals without PHC and the noncancerous tissue of PHC-bearing animals, whereas a decrease of both activation and detoxification indices was recorded in the tumorous tissue. There was a considerable interindividual variability among WHV carriers, which was tentatively ascribed to genetic factors. Pregnancy was the only known factor influencing the results in WHV carriers. However, even by excluding pregnant animals, the effects on carcinogen metabolism produced by WHV infection were still statistically significant. These results, together with previous data obtained in humans, revealed that metabolic factors may play a role in the synergism between viral hepatitis and chemical hepatocarcinogens in the etiopathogenesis of PHC.
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PMID:Enhanced metabolic activation of chemical hepatocarcinogens in woodchucks infected with hepatitis B virus. 272 Sep 3

Incubation of iodosylbenzene and [125I]iodobenzene with cytochrome P-450 (P-450) leads to the formation of [125I]iodosylbenzene (Burka, L.T., Thorsen, A., and Guengerich, F.P. (1980) J. Am. Chem. Soc. 102, 7615-7616), but to date it has not been possible to observe directly the oxidation of organic halides in NADPH-supported P-450 reactions because of the intrinsic instability of haloso compounds. 4-tert-Butyl-2,5-bis[1-hydroxy-1-(trifluoromethyl)- 2,2,2-trifluoroethyl]iodobenzene (RI) and the corresponding bromine analog (RBr) were utilized as model compounds because their oxidized derivatives (iodinane and brominane) are relatively stable. Several model metalloporphyrins efficiently oxidized RI to the iodinane in the presence of iodosylbenzene. Rates of reduction of Mn(V) = O tetraphenylporphin chloride by RI were considerably faster than for several other organic halides. NADPH-fortified rat liver microsomes oxidized RI to the iodinane, identified by its chromatographic retention time and characteristic UV spectrum. Purified P-450 enzymes also catalyzed the oxidation of RI to the iodinane; more selectivity among individual proteins was seen when the reaction was supported by NADPH and NADPH-P-450 reductase than by iodosylbenzene. Free thiol groups in P-450 and NADPH-P-450 reductase could be oxidized by iodosylbenzene, the iodinane or brominane, or by incubation with NADPH and RI or other organic halides. These results provide evidence that P-450 can oxidize organic halogen atoms. Iodo compounds are definitely oxidized, even though the apparent oxidation-reduction potential differences seem unfavorable. The halogen order seen for the reaction is a function of the oxidation potential. Organic bromine compounds are probably also oxidized by P-450, although the rates are much slower. Chloroperoxidase did not oxidize RI to the iodinane but horseradish peroxidase did so at a lower rate; in this case the iodinane is postulated to form via electron abstraction without oxygen transfer.
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PMID:Oxidation of halogenated compounds by cytochrome P-450, peroxidases, and model metalloporphyrins. 279 46

The author studied dependence of cytotoxicity of peritoneal macrophages of Wistar rats on the production of active oxygen form (AOF) and activity of antioxidative enzymes in target cells. Low activity of glutathione-peroxidase and glutathione-reductase in K562 cells could be the cause of macrophage cytotoxicity realization along AOF-dependent way.
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PMID:[Low activity of antioxidant enzymes in tumor cells as a factor of oxygen dependence of antitumor cytotoxicity of macrophages]. 280 32


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