EC:1.6.99.3 - FACTA Search

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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)

Subcellular copper distribution was studied after single alimentary loading of rats with copper sulfate and after 2- and 4-day spontaneous decorporation of the metal. Copper content in mitochondria and in the soluble fraction was found to rise as early as the 1st day. Then it decreased reaching the normal values after 2-day and 4-day autodecorporation for cytosol and mitochondria, respectively. The activities of rotenone-sensitive NADH-cytochrome c reductase, succinate-cytochrome c reductase and cytochrome oxidase were inhibited by copper treatment but after a 4-day decorporation they became normal. On the contrary, rotenone-insensitive NADH-cytochrome c reductase was activated. Single alimentary copper treatment induced changes in electron transport and oxidative phosphorylation with succinate and glutamate as substrates. The changes established were in accordance with the decreased enzyme activities. After chronic copper loading (7-8 weeks) the interruption of copper-enriched diet for 5 days led to restoration of the copper content in the subcellular fractions. Treatment with unitiol did not change the spontaneous decorporation.
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PMID:Decorporation of copper from liver subcellular fractions after alimentary loading of rats. 21 32

The rabbits being repeatedly poisoned with small doses of sodium cyanide, the activity of succinic dehydrogenase in the tissues does not essentially change. The activity of NAD.H2-cytochrome-c-reductase and NAD.H2-diaphorase in the brain, myocardium and kidneys increases. Under histotoxic hypoxia the level of iron in the tissues increases by 52-93%, that of copper--by 28-36%, of zinc--by 21-74% and of cobalt by 28-40%. There existed a positive correlation between the content of iron and the activity of NAD-dependent enzymes. In nonlethal form of histotoxic hypoxia the content of nonhemin iron and the activity of NAD.H2-cytochrome-c-reductase in the mitochondria of the brain increases by 25% and 17%, respectively, and a direct correlation is revealed between them.
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PMID:[Iron, copper, zinc and cobalt content and activity of respiratory metalloenzymes in animal tissues under toxic hypoxia]. 68 69

In order to localize 3beta-hydroxysteriod dehydrogenase activity on the ultrastructural level, sections of Newt and Rat adrenocortical tissues, fixed in a mixture of glutaraldehyde (0.25%) and formaldehyde (1%), were incubated in a medium containing namely a 3beta-hydroxysteroid as substrate, NAD, potassium ferricyanide as final electron acceptor and copper sulfate. In some experiments, phenazine methosulfate (PMS), an electron carrier which can substitute for the activity of the endogenous NADH-diaphorase, is added at various concentrations to the incubation medium. A final precipitate of copper ferrocyanide is observed in the immediate vicinity of the tubules of the smooth endoplasmic reticulum, or in contact with their external faces. The reaction product can also be seen in mitochondrial cristae. The reaction does not take place in incubation media lacking substrate or containing cyanoketone, a specific inhibitor of 3beta-hydroxysteroid dehydrogenase. the addition of PMS to the incubation medium increases the intensity of the reaction, but does not modify the localization of the precipitate.
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PMID:Ultracytochemical demonstration and probable localization of 3beta-hydroxysteroid dehydrogenase activity with a ferricyanide technique. 83 7

The ultrastructural localization of 3 beta hydroxysteroid ferricyanide reductase, glucose-6-phosphate ferricyanide reductase and nicotinamide adenine dinucleotide and reduced form-ferricyanide reductase was investigated in some human steroidogenic tissues (corpus luteum of pregnancy, fetal adrenal gland and testis, adult testis and placenta) using ferricyanide as an electron acceptor. Copper ferrocyanide deposits were readily observed in the mitochondria, in the smooth endoplasmic reticulum profiles and in the cytoplasm. The sites of the various dehydrogenase activities could be visualized by using appropriate incubating media. The precise localization of various reactions in different electron transfer chains was determined by using different ferricyanide concentrations and intermediate electron-carriers such as menadione or exogenous nicotinamide adenine dinucleotide and reduced form-diaphorase. The use of respiratory chain inhibitors such as rotenone or antimycine A confirmed these data.
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PMID:The use of ferricyanide for the electron microscopic demonstration of dehydrogenases in human steroidogenic cells. 100 73

The antineoplastic benzanthroquinone drug doxorubicin can undergo flavoenzyme-catalyzed one-electron reduction which, in an aerobic environment, leads to the generation of oxygen-derived species. We therefore sought to determine whether doxorubicin in the presence of NADH dehydrogenase and the transition metal ions Fe(III) or Cu(II) induces DNA base modifications in isolated human chromatin. NADH dehydrogenase-catalyzed reduction of doxorubicin (25-100 microM) caused hydroxyl radical production detected as methane generated from dimethyl sulfoxide; addition of isolated human chromatin to the system produced a concentration-dependent quenching of detectable hydroxyl radical formation. Doxorubicin (5-50 microM)-stimulated enzyme-catalyzed oxidation of NADH was also diminished, but still detectable, in the presence of chromatin. Doxorubicin-induced DNA base modifications in chromatin were measured by gas chromatography/mass spectrometry with selected-ion monitoring. Production of modified bases required the addition of transition metal ion and was enhanced by the addition of active flavoenzyme. The non-redox cycling analogue 5-iminodaunorubicin induced significantly less base modification than did doxorubicin. In the presence of Fe(III), NADH dehydrogenase-catalyzed reduction of doxorubicin caused enhancement in the content of all modified bases over control levels. Substitution of Cu(II) for Fe(III) altered both the degree and the pattern of doxorubicin/NADH dehydrogenase-induced base modifications. The scavengers of hydroxyl radical mannitol and dimethyl sulfoxide or catalase did not significantly affect doxorubicin/NADH/NADH dehydrogenase/transition metal ion-induced base modifications. Superoxide dismutase further enhanced production of all base modifications. The data demonstrate that flavoenzyme-catalyzed redox cycling of doxorubicin generates typical hydroxyl radical-induced base modifications in the DNA of isolated human chromatin, suggesting a possible mechanism for the mutagenicity of doxorubicin in vivo.
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PMID:DNA base modifications induced in isolated human chromatin by NADH dehydrogenase-catalyzed reduction of doxorubicin. 131 97

ICRF-187 ((+)-1,2-bis(3,5-dioxopiperazinyl-1-yl)propane) has shown promise (Speyer et al., N. Engl. J. Med. 319, 745 (1988] as a cardioprotective agent against what may be an iron-based adriamycin-induced cardiotoxicity. ICRF-187, which is membrane permeable, likely exerts its action through its rings-opened hydrolysis product which has a structure similar to EDTA and which, likewise, strongly binds metal ions. Both Fe3(+)-adriamycin and Cu2(+)-adriamycin reacted directly with ICRF-187, promoting a ring-opening hydrolysis of ICRF-187 that resulted in the displacement of the metal ion from its complex with adriamycin. Thus ICRF-187 can be considered to be acting as a "suicide protective agent" in its reaction with metal ion-adriamycin complexes. That this metal ion complex-promoted hydrolysis was preceded by mixed ligand complex formation is evidenced by the fact that the first-order rate constant for loss of metal ion from the adriamycin complex exhibits saturation behaviour at high ICRF-187 concentrations. Also direct spectroscopic evidence was obtained both for a Cu2(+)-adriamycin-ICRF-187 mixed ligand complex and a Cu2+ (ICRF-187)2 complex. The Fe3(+)-adriamycin complex inactivates the cytochrome c oxidase and NADH cytochrome c reductase activity on submitochondrial particles. The protection that ICRF-187 affords against this loss of activity may be explained both on the basis of simple Fe3+ removal from Fe3(+)-adriamycin and also on formation of a less active Fe3(+)-adriamycin-ICRF-187 mixed ligand complex.
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PMID:The iron(III) and copper(II) complexes of adriamycin promote the hydrolysis of the cardioprotective agent ICRF-187 ((+)-1,2-bis(3,5-dioxopiperazinyl-1-yl)propane). 216 Jan 91

Brain mitochondrial enzyme activities were examined in 15-day-old suckling mice which were daily injected with D-penicillamine (DP), a chelating agent of copper. Newborn mice treated with DP (1 g/kg/day) showed retarded weight gain, hyperelasticity of skin, and a bizarre forelimb posture with subcutaneous edema on experimental day (ED) 7. Paraparesis or dragging of the hindlimbs was observed by ED 15. Brain copper contents of DP-treated mice decreased to 34% of the controls of ED 15. Cytochrome c oxidase activity (complex IV) in the brain showed 51% decrease of the controls, on the contrary, rotenone-sensitive NADH cytochrome c reductase (complex I + III) and succinate cytochrome c reductase (complex II + III) were normal. Histochemistry of cytochrome c oxidase in the cerebellum of DP-treated mice disclosed diffuse reduction of staining, especially in Purkinje cells. These data show that DP-induced copper deficiency in the brain subsequently disturbs mitochondrial electron transport system, selectively cytochrome c oxidase activity. This seems to be a useful animal model not only for Menkes' kinky hair disease but also for mitochondrial encephalomyopathy.
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PMID:D-penicillamine-induced copper deficiency in suckling mice: neurological abnormalities and brain mitochondrial enzyme activities. 217 57

The influence of dietary iron deficiency, lead exposure or their combination on certain enzymes, and the accumulation of Pb and essential metal levels in vital organs of rats was investigated. Iron deficiency caused alterations in the activity of muscle, hepatic and renal succinate dehydrogenase, and hepatic mitochondrial succinate cytochrome c reductase, whereas Pb exposure had no influence on these enzymes. There was no synergistic effect of the two factors on the activity of the enzymes. However, feeding of a Fe-deficient diet during Pb exposure enhanced the accumulation of Pb in soft tissues and flat bones. The hepatic copper and zinc levels were lowered upon either feeding a Fe-deficient diet or Pb exposure. However, the synergistic effect of the two factors was evident in hepatic Cu, but not in hepatic Zn. The feeding of a Fe-deficient diet decreased liver, kidney, and spleen levels of Fe, whereas Pb exposure decreased kidney and spleen Fe. The synergistic influence of the two factors could be observed only in liver and kidney.
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PMID:Interrelationship between iron deficiency and lead intoxication (Part 2). 248 15

Oxidation of diethyldithiocarbamate (DTC) to disulfiram (DS) by liver microsomes was tested in vitro by using a copper-DTC chelate formation reaction after the conversion of DS to DTC by glutathione (GSH). In the presence of NADPH, microsomes produced DS from DTC in both the free and microsome-bound forms, the former being greater than the latter. DS production was dependent on NADPH and DTC concentrations, and incubation time. Increases in microsomal concentrations, up to a certain level, also increased the free and total DS production. NADH was only somewhat effective, both the exposure to a nitrogen atmosphere and heat-denaturation of the microsomes suppressed the reaction. Preincubation of microsomes with both DTC and NADPH markedly decreased aniline hydroxylase, p-nitroanisole O-demethylase and glucose-6-phosphatase activities, and moderately decreased NADH-ferricyanide and NADH-cytochrome c reductase, but NADPH-cytochrome c reductase was minimally affected. DTC alone had only slight effects on the activities. DS also decreased these enzyme activities, particularly glucose-6-phosphatase; the loss of NADPH-cytochrome c reductase activity being protected in the presence of NADPH. GSH almost completely prevented the loss of microsomal enzyme activities induced by DTC and NADPH except for the drug metabolizing activities, in which protection was incomplete. The microsomal oxidation of DTC to DS could play a role in the action of DS in the liver, since DS is rapidly degradated to DTC in vivo.
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PMID:Oxidation of diethyldithiocarbamate to disulfiram by liver microsomes in the presence of NADPH and subsequent loss of microsomal enzyme activity in vitro. 285 81

Effects of dietary copper deficiency in rats on respiratory enzymes of isolated rat liver mitochondria have been studied. After 2 weeks of Cu-depletion, cytochrome c oxidase (EC 1.9.3.1) activity had declined by 42% and between 4 and 8 weeks exhibited between 20 and 25% of the activity of control mitochondria. Activities of NADH cytochrome c reductase (EC 1.6.99.3) and succinate cytochrome c reductase (EC 1.3.99.1), were unaffected initially but declined by 32 and 46%, respectively, after 8 weeks of Cu-depletion. After 4 weeks there was a significant (34%) decline in succinate supported state 3 respiration with only a modest (18%) decline in state 4 respiration. The ADP:O ratio was unaffected by Cu-depletion after 6 and 8 weeks of dietary Cu-restriction. State 3 respiration was significantly reduced after 6 weeks when glutamate/malate or beta-hydroxybutyrate were used as substrates, whereas state 4 respiration and ADP:O ratios were unaffected. The fall in state 3 respiration was of sufficient magnitude at 8 weeks to cause a significant decline in the respiratory control ratio with all substrates. Comparisons between the relative activities of cytochrome c oxidase and reductase activities in Cu-deficient preparations, the relatively specific effect of the deficiency on state 3 respiration with all substrates tested and the ability to increase significantly oxygen consumption in excess of maximal state 3 respiration by the uncoupler 2,4-dinitrophenol suggest that the defect in Cu-deficient mitochondria cannot be attributed solely to the decreased activity of cytochrome c oxidase.
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PMID:Studies on the effects of copper deficiency on rat liver mitochondria. II. Effects on oxidative phosphorylation. 286 80

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