EC:1.8.1.4 - FACTA Search

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Query: EC:1.8.1.4 (diaphorase)
2,754 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

After having described in detail the pathophysiology, symptomatology, X-chromosomal inheritance and some laboratory methods in detecting G-6-PD-deficiency by demonstrating a case of favism (Schulz et al. 1977), the authors now discuss the particularities of the enzyme deficiency in the newborn. These are complicated by additional physiological and transient deficiency of the enzymes catalase, NAD-diaphorase, glutathione peroxidase, and glucuronyl transferase. Several chemical substances, acidosis, hypoxia, hypoglycemia, and immaturity may cause a severe hyperbilirubinemia in G-6-PD-deficient newborns. The development of a kern-icterus in these cases may be prevented by early exchange transfusion. From clinical findings and some observations in different regions of Greece an additional factor influencing the liver function has been postulated which favors the development of hyperbilirubinemias in G-6-PD-deficient newborns. The nature of this possible factor is discussed. The authors emphasize the necessity of screening for G-6-PD-deficiency during pregnancy in families of mediterranian descent.
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PMID:[Glucose-6-phosphate dehydrogenase deficiency of the mediterranean type B minus. 2. Etiological basis for severe hyperbilirubinemia in the newborn]. 63 93

Vanadate V(V) markedly stimulated the oxidation of NADPH by GSSG reductase and this oxidation was accompanied by the consumption of O2 and the accumulation of H2O2. Superoxide dismutases completely eliminated this effect of V(V), whereas catalase was without effect, as was exogenous H2O2 added to 0.1 mM. These effects could be seen equally well in phosphate- or in 4-(2-hydroxyethyl)1-piperazineethanesulfonic acid-buffered solutions. Under anaerobic conditions there was no V(V)-stimulated oxidation of NADPH. Approximately 4% of the electrons flowing from NADPH to O2, through GSSG reductase, resulted in release of O2-. The average length of the free radical chains causing the oxidation of NADPH, initiated by O2- plus V(V), was calculated to be in the range 140-200 NADPH oxidized per O2- introduced. We conclude that GSSG reductase, and by extension other O2(-)-producing flavoprotein dehydrogenases such as lipoyl dehydrogenase and ferredoxin reductase, catalyze V(V)-stimulated oxidation of NAD(P)H because they release O2- and because O2- plus V(V) initiate a free radical chain oxidation of NAD(P)H. There is no reason to suppose that these enzymes can act as NAD(P)H:V(V) oxidoreductases.
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PMID:Superoxide generated by glutathione reductase initiates a vanadate-dependent free radical chain oxidation of NADH. 131 40

Lipid peroxidation of rat erythrocyte membranes was induced by lipoamide dehydrogenase (LADH) (EC 1.8.1.4) in the presence of ADP-Fe3+. Superoxide dismutase (SOD) (EC 1.15.1.1) strongly inhibited the peroxidation reaction but catalase did not. Hydroxyl radical scavengers, mannitol and dimethylsulfoxide did not inhibit the lipid peroxidation. These results indicated that the lipid peroxidation was a superoxide (O2-)-dependent reaction, but the hydroxyl radical was not involved. ADP-Fe3+, in the presence of LADH, was reduced more rapidly under aerobic than anaerobic conditions and SOD under aerobic conditions strongly inhibited the iron reduction, indicating that O2- plays a predominant role in iron reduction. Hydrogen peroxide enhanced O2- generation by LADH, but the peroxidation reaction was not affected. In the presence of lipoamide, lipid peroxidation was also induced but the reactions were not inhibited by SOD. Evidently, the lipid peroxidation induced in the presence of lipoamide was O2(-)-independent. Dihydrolipoamide may be involved in the peroxidation reaction.
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PMID:Lipid peroxidation of erythrocyte membrane induced by lipoamide dehydrogenase in the presence of ADP-Fe3+. 145 54

The oxidase reaction of lipoamide dehydrogenase with NADH generates superoxide radicals and hydrogen peroxide under aerobic conditions. ESR spin trapping using 5,5-dimethyl-1-pyrroline-N-oxide (DMPO) was applied to characterize the oxygen radical species generated by lipoamide dehydrogenase and the mechanism of their generation. During the oxidase reaction of lipoamide dehydrogenase, DMPO-OOH and DMPO-OH signals were observed. The DMPO-OOH signal disappeared on addition of superoxide dismutase. These results demonstrate that the DMPO-OOH adduct was produced from the superoxide radical generated by lipoamide dehydrogenase. In the presence of dimethyl sulfoxide, a DMPO-CH3 signal appeared at the expense of the DMPO-OH signal, indicating that the DMPO-OH adduct was produced directly from the hydroxyl radical rather than by decomposition of the DMPO-OOH adduct. The DMPO-OH signal decreased on addition of superoxide dismutase, catalase, or diethylenetriaminepentaacetic acid, indicating that the hydroxyl radical was generated via the metal-catalyzed Haber-Weiss reaction from the superoxide radical and hydrogen peroxide. Addition of ferritin to the NADH-lipoamide dehydrogenase system resulted in a decrease of the DMPO-OOH signal, indicating that the superoxide radical interacted with ferritin iron.
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PMID:Mechanisms of generation of oxygen radicals and reductive mobilization of ferritin iron by lipoamide dehydrogenase. 165 85

ESR spectroscopic evidence is presented for the formation of vanadium(IV) in the reduction of vanadium(V) by three typical, NADPH-dependent, flavoenzymes: glutathione reductase, lipoyl dehydrogenase, and ferredoxin-NADP+ oxidoreductase. The vanadium(V)-reduction mechanism appears to be an enzymatic one-electron reduction process. Addition of superoxide dismutase (SOD) showed that the generation of vanadium(IV) does not involve the superoxide (O2-) radical significantly. Measurements under anaerobic atmosphere showed, however, that the enzymes-vanadium-NADPH mixture can cause the reduction of molecular oxygen to generate H2O2. The H2O2 and vanadium(IV) thus formed react to generate hydroxyl (.OH) radical. The .OH formation is inhibited strongly by catalase and to a lesser degree by SOD, but it is enhanced by exogenous H2O2, suggesting the occurrence of a Fenton-like reaction. The inhibition of vanadium(IV) formation by N-ethylmaleimide indicates that the SH group on the flavoenzyme's cystine residue plays an important role in the enzyme's vanadium(V) reductase function. These results thus reveal a new property of the above-mentioned, NADPH-dependent flavoenzymes--their function as vanadium(V) reductases, as well as that as generators of .OH radical in the vanadium(V) reduction mechanism.
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PMID:Flavoenzymes reduce vanadium(V) and molecular oxygen and generate hydroxyl radical. 165 58

Many anticancer drugs exert their cytotoxic effects via formation of oxygen free radicals. Cellular thiols, glutathione (GSH)-dependent enzymes and other redox enzymes are involved in the metabolism of these anticancer drugs and of the oxygen free radicals that may be generated during their metabolism. We quantified these biochemical parameters in cytosol from human ovarian tissues. We compared non-protein thiol levels, GSH transferase, GSH peroxidase, superoxide dismutase, catalase, DT diaphorase and aldehyde dehydrogenase activity in serous ovarian tumors (n = 15), other malignant ovarian tumors (n = 12), benign ovarian tissue (n = 10) and histologically normal ovarian tissue (n = 12). Mean GSH transferase and DT diaphorase activities were similar in serous and other malignant ovarian tumors. GSH transferase activity was decreased in malignant tissues relative to normal and benign tissues. Mean DT diaphorase and superoxide dismutase activities were increased in the malignant tissues, although this was not statistically significant. The mean levels of all enzymes except superoxide dismutase and aldehyde dehydrogenase in benign tissues were fairly similar to the mean levels found in normal tissue samples. Tissues from patients with serous ovarian tumors, who had received cyclophosphamide and cisplatin prior to surgery, also were analyzed (n = 7). Except for aldehyde dehydrogenase, all the parameters measured were decreased in these samples relative to serous tissue from untreated patients. These biochemical analyses may be useful in understanding the mechanisms involved in the response to chemotherapy.
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PMID:Detoxifying enzymes in human ovarian tissues: comparison of normal and tumor tissues and effects of chemotherapy. 239 58

Enzymes in the human myocardium following sudden death were examined for activity in a quantitative histoenzymological study, these were NAD-dependent dehadrogenases of succinate (SDG), lactate (LDG), beta-hydroxybutyrate (beta-HOBDG), alpha-glycerophosphate (alpha-GPDG), alcohol (ADG), glucoso-6-phosphate (G-6-PDG), and NAD-diaphorase (NADse), and catalase. Autopsies were performed within 3 h after death. beta-HOBDG and LDG were found to show an increase in activity in the cardiomyocytes of sudden death subjects with coronary heart disease without apparent changes. In the myocardium from death subjects with coronary heart disease and large postinfarct cardiosclerosis, the activity of the enzymes was directly related to the severity of myocardial hypertrophy and signs of chronic heart failure. As myocardial hypertrophy developed, the enzyme activity increased; when there appeared signs of chronic heart failure it decreased. The myocardium from sudden death subjects with alcoholic cardiomyopathy showed diminished redox enzyme activity and higher activity of the enzyme utilizing alcohol (ADG and catalase). The findings suggest that changes in the enzyme activity in the myocardium are of various type and depend on previous cardiac abnormalities.
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PMID:Quantitative histoenzymological characteristics of the myocardium in sudden cardiac death. 252 98

On the material of early autopsies of the above patients the activity of the following myocardial enzymes was undergone the quantitative histochemical study: succinate, lactate, (beta-oxybutyrate, d-glycerophosphate, glucose 6-phosphate and alcohol dehydrogenase, NAD-diaphorase, catalase, phosphorylase. The increase of the activity of practically all enzymes studied was observed in the myocardial areas with no circulation disturbances. This increase was due to the moderate myocardial hypertrophy. On the contrary, in the areas with a non-even blood supply (ischemia) the decrease of the activity of all oxidative-reductive enzymes was observed. The presence of such foci in the myocardium which occur in 70% cases studied facilitates the development of the ventricular fibrillation with a fatal outcome. The enzyme depression is particularly pronounced against the background of a high alcoholic content.
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PMID:[A histochemical study of enzyme activity in the myocardium of victims of sudden death with small-focal cardiosclerosis]. 259 77

We examined the properties of neuronal NADPH-diaphorase in sections of rat striatum, using histochemical procedures. NADPH-diaphorase histochemistry stained discrete populations of central neurons and provided a Golgi-like image of the neurons exhibiting this activity. The NADPH-diaphorase reaction appeared to be enzyme catalyzed, since it was abolished by pre-treatment with proteases, heat, and acid or alkaline denaturation. Under anaerobic conditions, any tetrazolium salt with a redox potential more positive than NADPH could be reduced by the enzyme. NADPH-diaphorase activity was sensitive to inhibition by sulfhydryl reagents but was unaffected by metal chelators, superoxide dismutase, and catalase. Therefore, the enzyme is unlikely to be a metalloenzyme or to reduce tetrazoliums by producing superoxide anions or hydrogen peroxide. Various analogues of beta-NADPH could be used by the enzyme; however, beta-NADH, which can be used by DT-diaphorase, was ineffective. The enzyme was also resistant to dicumarol, an inhibitor of DT-diaphorase activity. Electron microscopy indicated that the NADPH-diaphorase reaction resulted in staining of various membranous organelles. We conclude that neuronal NADPH-diaphorase is a membrane-bound enzyme distinct from DT-diaphorase and other known enzymes with diaphorase activity. The histochemical characteristics presented here should now enable meaningful biochemical studies of neuronal NADPH-diaphorase to be undertaken.
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PMID:Histochemical characterization of neuronal NADPH-diaphorase. 270 1

Methylthioketobutyric acid has been used as an indicator for the production of reactive oxygen species during incubation with xanthine oxidase or NADH diaphorase in the presence of an autooxidizable quinone. The production of OH-radical-type oxidants is enhanced in the presence of crocidolite but not by the asbestos types chrysotile or amosite. This activity of crocidolite in the diaphorase system is further stimulated by bisulfite. Crocidolite-dependent ethylene formation from methylthioketo-butyric acid is inhibited by both superoxide dismutase and catalase. In the presence of both crocidolite and bisulfite, however, the inhibition by superoxide dismutase is preserved, but the inhibition by catalase is lost. Since in some respect the NADH-diaphorase quinone system may reflect the situation in the activated macrophage, crocidolite activation may represent a biochemical model system describing potential asbestos toxicity.
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PMID:Cooperative stimulation by sulfite and crocidolite asbestos fibres of enzyme catalyzed production of reactive oxygen species. 285 63

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