EC:1.6.99.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study characterizes mitochondria isolated from livers of Sod2(-/+) and Sod2(+/+) mice. A 50% decrease in manganese superoxide dismutase (MnSOD) activity was observed in mitochondria isolated from Sod2(-/+) mice compared with Sod2(+/+) mice, with no change in the activities of either glutathione peroxidase or copper/zinc superoxide dismutase. However, the level of total glutathione was 30% less in liver mitochondria of the Sod2(-/+) mice. The reduction in MnSOD activity in Sod2(-/+) mice was correlated to an increase in oxidative damage to mitochondria: decreased activities of the Fe-S proteins (aconitase and NADH oxidoreductase), increased carbonyl groups in proteins, and increased levels of 8-hydroxydeoxyguanosine in mitochondrial DNA. In contrast, there were no significant changes in oxidative damage in the cytosolic proteins or nuclear DNA. The increase in oxidative damage in mitochondria was correlated to altered mitochondrial function. A significant decrease in the respiratory control ratio was observed in mitochondria isolated from Sod2(-/+) mice compared with Sod2(+/+) mice for substrates metabolized by complexes I, II, and III. In addition, mitochondria isolated from Sod2(-/+) mice showed an increased rate of induction of the permeability transition. Therefore, this study provides direct evidence correlating reduced MnSOD activity in vivo to increased oxidative damage in mitochondria and alterations in mitochondrial function.
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PMID:Increased oxidative damage is correlated to altered mitochondrial function in heterozygous manganese superoxide dismutase knockout mice. 977 81

Two naturally occurring anthraquinones, barleriaquinone-I (BQ-I) and barleriaquinone-II (BQ-II), extracted from Barleria buxifolia, are tested for their cytotoxic action by aerobic incubation with human breast adenocarcinoma cells (MCF7). Cytotoxicities, measured as LD(50) (50% inhibition of colony formation) values, show BQ-II to be more active than BQ-I. Electron paramagnetic resonance studies confirm that BQ-II is reductively activated by NADH:cytochrome c reductase to superoxide anion radical. Cyclic voltammetric studies show one quasi-reversible redox couple for both BQ-I and BQ-II. Also, aerobic solutions of both BQ-I and BQ-II on visible illumination generate reactive oxygen species. Formation of O*-2 is studied by both EPR spin trapping and SOD-inhibitable cytochrome c reduction techniques. BQ-I generates more singlet oxygen as evidenced from the photobleaching of N,N-dimethyl-4-nitrosoaniline.
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PMID:Cytotoxicity, redox cycling and photodynamic action of two naturally occurring quinones. 1056 60

Seasonal variations in the antioxidant enzymes (catalase, superoxide dismutase [SOD], NADH-DT diaphorase), biotransformation enzyme, glutathione-S-transferase (GST) and microsomal lipid peroxidation in digestive tissue of barnacle, Balanus balanoides, from polluted and non-polluted populations have been evaluated. Relationships with accumulated polyaromatic hydrocarbon (PAH) concentration in barnacle tissues and environmental parameters (water temperature, salinity, dissolved oxygen concentration, water pH) were determined. As a general trend, maximum antioxidant enzyme and GST activities were detected in the pre-monsoon period or summer (March-June) followed by a gradual decrease during the monsoon (July October) with a minimum in the post-monsoon period or winter (November February). This pattern was similar to tissue concentrations of PAHs, resulting in a significant positive correlation with antioxidant enzymes, mainly catalase and SOD. Microsomal lipid peroxidation exhibited an almost reverse trend of seasonal variation to that of antioxidant enzyme activities indicating an enhanced susceptibility of barnacle tissues to oxidative stress. Among the environmental parameters, only water temperature seemed to have a significant effect on observed variations of antioxidant enzymes and GST activities. The barnacles from polluted and non-polluted populations exhibited seasonal differences in the activities of all the enzymes studied, particularly catalase, SOD and GST, suggesting the possibility of some biochemical adaptation in organisms from a chronically polluted environment. The results indicated that antioxidant defense components, catalase and SOD, are sensitive parameters that could be useful biomarkers for the evaluation of contaminated aquatic ecosystems. The results also suggested the potentiality of barnacle, B. balanoides, as a bioindicator organism against organic pollution.
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PMID:Seasonal variation of antioxidant and biotransformation enzymes in barnacle, Balanus balanoides, and their relation with polyaromatic hydrocarbons. 1148 54

Use of antioxidant enzymes as biomarkers often becomes a complicated process at application level because they show considerable seasonal fluctuation due to both natural and biological factors. In this study, we studied the consequences of seasonal variation of antioxidant enzymes [catalase (EC 1.11.1.6), superoxide dismutase (SOD, EC 1.15.1.1), glutathione peroxidase (GPX, EC 1.11.1.9) and microsomal NADPH-DT diaphorase (EC 1.6.99.2)] in the digestive gland of wild brackishwatcr oysters, Saccostrea cucullata for biomonitoring against polyaromatic hydrocarbon (PAH) contamination in Hooghly Estuary, north-eastern coast of India. As a general trend, maximum antioxidant enzyme activities were detected in pre-monsoon period or summer (March-June) followed by a gradual decrease during monsoon (July-October) with a minimum in post-monsoon period or winter (November-February) and this pattern was similar to tissue concentrations of PAHs also. The physiological fluctuations of the antioxidant defense systems were inversely-related to the lipid peroxidation indicating an enhanced susceptibility of oyster tissues to oxidative stress during post-monsoon or winter period. However, the oysters from polluted populations exhibited consistent very high PAHs load in their tissues as well as significant increases in the activities of antioxidant enzymes than in non-polluted populations in all three seasons. The results indicated that the antioxidant enzymes, catalase, SOD and microsomal NADPH-DT diaphorase in digestive gland of S. cucullata could be useful biomarkers of PAHs contamination. It also emphasized that seasonal variation of potential biomarkers like such enzymes should be incorporated into interpretation of biomonitoring studies by the use of appropriate controls and identical treatment in analysis of polluted and non-polluted samples.
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PMID:Antioxidant enzymes in brackishwater oyster, Saccostrea cucullata as potential biomarkers of polyaromatic hydrocarbon pollution in Hooghly Estuary (India): seasonality and its consequences. 1177 56

Ferredoxin-NAD(P)(+) reductase [EC 1.18.1.3, 1.18.1.2] was isolated from the green sulfur bacterium Chlorobium tepidum and purified to homogeneity. The molecular mass of the subunit is 42 kDa, as deduced by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). The molecular mass of the native enzyme is approximately 90 kDa, estimated by gel-permeation chromatography, and is thus a homodimer. The enzyme contains one FAD per subunit and has absorption maxima at about 272, 385, and 466 nm. In the presence of ferredoxin (Fd) and reaction center (RC) complex from C. tepidum, it efficiently catalyzes photoreduction of both NADP(+) and NAD(+). When concentrations of NADP(+) exceeded 10 microM, NADP(+) photoreduction rates decreased with increased concentration. The inhibition by high concentrations of substrate was not observed with NAD(+). It also reduces 2,6-dichlorophenol-indophenol (DPIP) and molecular oxygen with either NADPH or NADH as efficient electron donors. It showed NADPH diaphorase activity about two times higher than NADH diaphorase activity in DPIP reduction assays at NAD(P)H concentrations less than 0.1 mM. At 0.5 mM NAD(P)H, the two activities were about the same, and at 1 mM, the former activity was slightly lower than the latter.
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PMID:Purification and characterization of ferredoxin-NAD(P)(+) reductase from the green sulfur bacterium Chlorobium tepidum. 1200 11

Reactive oxygen species (ROS) have been implicated in the pathogenesis of vascular dysfunction in diabetes mellitus, and NAD(P)H oxidase is known as the most important source of ROS in the vasculatures. To determine whether NAD(P)H oxidase is a major participant in the critical intermediary signaling events in high glucose (HG, 25 mM)-induced proliferation of vascular smooth muscle cells (VSMC), we investigated in explanted aortic VSMC from rats the role of NAD(P)H oxidase on the HG-related cellular proliferation and superoxide production. VSMC under HG condition had increased proliferative capacity that was inhibited by tiron (1 mM), a cell membrane permeable superoxide scavenger, but not by SOD, which is not permeable to cell membrane. The nitroblue tetrazolium staining in the HG-exposed VSMC was more prominent than that of VSMC under normal glucose (5.5 mM) condition, which was significantly inhibited by DPI (10 microM), an NAD(P)H oxidase inhibitor, but not by inhibitors for other oxidases such as NADH dehydrogenase, xanthine oxidase, and nitric oxide synthase. In the VSMC under HG condition, the enhanced NAD(P)H oxidase activity with increased membrane translocation of Rac1 was observed, but the protein expression of p22phox and gp91phox was not increased. These data suggest that HG-induced changes in VSMC proliferation are related to the intracellular production of superoxide through enhanced activity of NAD(P)H oxidase.
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PMID:NAD(P)H oxidase participates in the signaling events in high glucose-induced proliferation of vascular smooth muscle cells. 1267 89

The degeneration of selective and specific types of neurons is a characteristic feature in several neurodegenerative disorders. N-methyl-D-aspartate receptor (NMDAR) agonist quinolinic acid (QUIN)-induced excitotoxicity has been implicated in neurodegeneration and mimics Huntington's disease (HD) by the loss of medium-sized spiny projection neurons while sparing medium-sized aspiny interneurons in the striatum. Previous work suggests that somatostatin/neuropeptide Y (SST/NPY)-containing neurons are selectively preserved in HD due to the presence of nicotinamide adenine dinucleotide phosphate diaphorase (NADPH-d) and the lack of NMDAR. In the present study, the distribution of somatostatin (SST), neuropeptide Y (NPY), nitric oxide synthase (nNOS), NMDA receptor type-1 (NR1), and the enzyme NADPH-d was determined in cultured striatal neurons with the effect of QUIN and N-methyl-D-aspartate (NMDA). SST/NPY-positive neurons, which constitute approximately 8-10% of striatal neurons, are selectively spared in QUIN/NMDA-treated cultures. nNOS and NADPH-d-positive neurons, comprising 3.8% of the neuronal population, also exhibit selective resistance to excitotoxicity. Most NR1-positive neurons, which constitute >80% of the total neuronal population, are lost in majority upon treatment with QUIN and NMDA. SST and NADPH-d-positive neurons also colocalize with Cu/Zn superoxide dismutase (Cu/Zn SOD). In conclusion, our results thus demonstrate that SST/NPY/nNOS-positive neurons are selectively spared in NMDA agonist-induced excitotoxicity, which could be attributed to the presence of Cu/Zn SOD and NADPH-d in addition to the low abundance of NMDAR on these neurons.
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PMID:Characterization of striatal cultures with the effect of QUIN and NMDA. 1509 1

The blood alcohol level cycle (BALC) of the intragastric tube feeding model first described by Tsukamoto et al., has three separate essential mechanistic components. The first is the requirement for an intact functioning thyroid. The evidence for this is that propylthiouracil or severance of the pituitary stalk completely prevents the cycle. What happens instead of the cycle is that the blood alcohol level rises to a lethal level when ethanol is given continuously at a dose of 11 g/kg/day by stomach tube. When excess thyroid hormone is given orally it markedly attenuates the cycle because it interferes with the changes in the level of thyroid hormone during the cycle. The second component is norepinephrine. Catecholamines are markedly elevated at the peaks of the cycle. Both propranolol and phenoxybenzamine, which are beta- and alpha-blockers, prevent the cycle. Also, when catecholamines are fed in excess in the form of ephedrine, the cycle is eliminated. The third element essential to the cycle is the generation of NAD to support the oxidation of alcohol by alcohol dehydrogenase. When complex I (NADH dehydrogenase) of the mitochondrial electron transport chain is inhibited by feeding rotenone, the cycle is totally eliminated and blood alcohol levels remain constant at 200 mg/%. Thus NADH increases and NAD decreases at the peak of the cycle. Without the fluxuation of NAD, ADH activity cannot fluctuate during the cycle and the cycle is prevented. The significance of the BALC in the understanding of alcohol liver disease pathogenesis is that there's a marked difference in the gene expression and liver toxicity when the peaks and troughs of the cycle are compared. The expression of 1000+ genes is either two-fold up or down regulated as determined by microarray analysis. At the peaks there is increased liver pathology, especially inflammatory changes in the liver associated with an increase of iNOS expression. The genes responsive to hypoxia inducible factor 1alpha (HIF1alpha) regulation are increased including the expression of erythropoietin, adrenomedullin and adrenergic receptor alpha 1a and d. The expression of prolyl hydroxylase, which destabilizes HIF1alpha, increases when the BAL drops to low levels during the cycle. The level of oxygen, as measured on the surface of the liver, is decreased at the peaks, compared to control livers. The NADH/NAD ratio is markedly increased and ATP levels are markedly decreased at the BAL peaks. Also, endotoxin in the blood is very high at the peaks and very low at the troughs. When the blood alcohol levels fall during the cycle, there is an increase in ALT, suggesting that reoxygenation from the hypoxic state at the peaks causes an ischemic reperfusion injury-like lesion in the liver. At this time there is also an increase in expression of many important enzymes such as manganese SOD. Genes such as c-fos and CTGF are increased in expression. These contrasting findings at the peaks and troughs indicate that the blood alcohol levels, which fluctuate up and down, change the gene expression and the pathology of the liver.
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PMID:The pathogenesis and significance of the urinary alcohol cycle in rats fed ethanol intragastrically. 1634 1

Disruption of mitochondria and free radical mediated tissue injury have been reported during cardiotoxicity induced by isoproterenol (ISO), a beta-adrenergic catecholamine. The present study was designed to investigate the effect of the combination of ferulic acid (FA) and ascorbic acid (AA) on the mitochondrial damage in ISO induced cardiotoxicity. Induction of rats with ISO (150 mg/kg b.wt., i.p.) for 2 days resulted in a significant decrease in the activities of respiratory chain enzymes (NADH dehydrogenase and cytochrome c-oxidase), tricarboxylic acid cycle enzymes (isocitrate dehydrogenase, succinate dehydrogenase, malate dehydrogenase, alpha-ketoglutarate dehydrogenase), mitochondrial antioxidants (GPx, GST, SOD, CAT, GSH), cytochromes (b, c, c1, aa3) and in the level of mitochondrial phospholipids. A marked elevation in mitochondrial lipid peroxidation, mitochondrial levels of cholesterol, triglycerides and free fatty acids were also observed in ISO intoxicated rats. Pre-co-treatment with the combination of FA (20 mg/kg b.wt.) and AA (80 mg/kg b.wt.) orally for 6 days significantly enhanced the attenuation of these functional abnormalities and restored normal mitochondrial function when compared to individual drug treated groups. Mitigation of ISO induced biochemical and morphological changes in mitochondria were more pronounced with a combination of FA and AA rather than the individual drug treated groups. Transmission electron microscopic observations also correlated with these biochemical parameters. Hence, these findings demonstrate the synergistic ameliorative potential of FA and AA on mitochondrial function during beta-adrenergic catecholamine induced cardiotoxicity and associated oxidative stress in rats.
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PMID:Ferulic acid with ascorbic acid synergistically extenuates the mitochondrial dysfunction during beta-adrenergic catecholamine induced cardiotoxicity in rats. 1676 44

A sigmoid-type dependence on the inhibitor concentration was observed in the cytochrome c reductase activity for peptide inhibitors (mastoparan and melittin), calmodulin antagonists (W-7 and tamoxifen) and monobutyltin in a reconstituted system comprised of recombinant rat neuronal nitric-oxide synthase (nNOS) and calmodulin (CaM). The increase in the concentration of CaM in the system induced a decrease in the inhibitory effect, indicating that the inhibitors might interfere with the interaction between nNOS and CaM. The changes in the fluorescence spectra of dansylated CaM caused by the addition of mastoparan, melittin and monobutyltin indicated complex formation between CaM and those compounds, which led to the decrease in the effective concentration of CaM available to nNOS. The sigmoid-type inhibition of mastoparan and melittin fit the theoretical equations quite well, assuming that two CaM molecules bind cooperatively to one nNOS homodimer. Monobutyltin, tamoxifen and W-7 were found to inhibit nNOS activity by binding to the CaM binding site of the nNOS homodimer, in addition to the binding of the inhibitors to calmodulin. These compounds inhibited the L-citrulline formation of nNOS from L-arginine, and the inhibitory effects were abrogated by raising the concentration of calmodulin. It became clear that the binding of calmodulin to nNOS can be interfered with in two ways: (1) via a decrease in the effective concentration of calmodulin caused by complex formation between the inhibitor and calmodulin, and (2) via the inhibition of the binding of calmodulin to nNOS caused by the occupation of the binding site by the inhibitor.
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PMID:Allosteric inhibition of rat neuronal nitric-oxide synthase caused by interference with the binding of calmodulin to the enzyme. 1709 64

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