DrugBank:EXPT02288 - FACTA Search

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Query: DrugBank:EXPT02288 (NADH)
21,914 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The reduction of flavin by reduced diphosphopyridine nucleotide and photoreduction were studied spectrophotometrically. Flavin was covalently bound to aminoethylcellulose, therefore the interaction between flavin molecules was excluded. Nevertheless a considerable quantity of free radicals was demonstrated under these conditions. The experimental dependence of the radical concentration as a function of reduction degree is readily explained if the reduction of flavin proceeds in two consecutive one-electron steps. The ratio of the rate constants of both reactions for the reduction of flavin by NADH k2'/k1' was equal to 4, for the photoreductions k2'/k1' to 6.5.
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PMID:[Free-radicals formation in reductions of flavin. Study on the reduction of aminoethylcellulose-bound flavin]. 19 Nov 7

The formation of hydrogen peroxide during the oxidation of NADH by purified preparations of cytochrome o has been demonstrated by employing three independent methods: polarographic, colorimetric, and fluorometric. The first two methods were used to assay for the accumulation of hydrogen peroxide and showed that hydrogen peroxide did accumulate as a product, but only about 30% of the oxygen consumed or 15 to 20% of the NADH oxidized was recoverable as hydrogen peroxide. This lack of 1:1 stoichiometry was not due to residual catalase activity in these preparations which could be eliminated by freeze-thawing. Thus, hydrogen peroxide may not be the sole or primary product of the NADH-cytochrome o oxidase reaction. The fluorometric assay could be coupled directly to the NADH-cytochrome o oxidase reaction in one medium, and this method showed that hydrogen peroxide was generated continuously from the beginning of the reaction in a 1:1 stoichiometry, hydrogen peroxide generated to NADH oxidized. This result suggests that hydrogen peroxide is an intermediate that can be trapped efficiently under the conditions of the fluorometric assay, whereas under the conditions of the first two assays most of the hydrogen peroxide generated undergoes further reaction. Exogenously added FAD or FMN increased the percentage of hydrogen peroxide that accumulated in the NADHcytochrome o oxidase reaction. Flavin is believed to act on the reductase side of cytochrome o so the increased percentage of hydrogen peroxide is not likely to result from the direct reaction of reduced flavin with oxygen.
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PMID:The formation of hydrogen peroxide during the oxidation of reduced nicotinamide adenine dinucleotide by cytochrome o from Vitreoscilla. 23 73

A full-length cDNA clone, pKK-DTD4, complementary to rat liver cytosolic DT-diaphorase [NAD(P)H:quinone oxidoreductase (EC 1.6.99.2)] mRNA was expressed in Escherichia coli. The pKK-DTD4 cDNA was obtained by extending the 5'-end sequence of a rat liver DT-diaphorase cDNA clone, pDTD55, to include an ATG initiation codon and the NH2-terminal codons using polymerase chain reaction (PCR). Restriction sites for EcoRI and HindIII were incorporated at the 5'- and 3'-ends of the cDNA, respectively, by the PCR reaction. The resulting full-length cDNA was inserted into an expression vector, pKK2.7, at the EcoRI and HindIII restriction sites. E. coli strain AB1899 was transformed with the constructed expression plasmid, and DT-diaphorase was expressed under the control of the tac promotor. The expressed DT-diaphorase exhibited high activity of menadione reduction and was inhibited by dicumarol at a concentration of 10(-5)M. After purification by Cibacron Blue affinity chromatography, the expressed enzyme migrated as a single band on 12.5% sodium dodecyl sulfate-polyacrylamide gel with a molecular weight equivalent to that of the purified rat liver cytosolic DT-diaphorase. The purified expressed protein was recognized by polyclonal antibodies against rat liver DT-diaphorase on immunoblot analysis. It utilized either NADPH or NADH as electron donor at equal efficiency and displayed high activities in reduction of menadione, 1,4-benzoquinone, and 2,6-dichlorophenolindophenol which are typical substrates for DT-diaphorase. The expressed DT-diaphorase exhibited a typical flavoprotein spectrum with absorption peaks at 380 and 452 nm. Flavin content determination showed that it contained 2 mol of FAD per mole of the enzyme. Edman protein sequencing of the first 20 amino acid residues at the NH2 terminus of the expressed protein indicated that the expressed DT-diaphorase is not blocked at the NH2 terminus and has an alanine as the first amino acid. The remaining 19 amino acid residues at the NH2 terminus were identical with those of the DT-diaphorase purified from rat liver cytosol.
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PMID:Expression of mammalian DT-diaphorase in Escherichia coli: purification and characterization of the expressed protein. 170 98

1. A systematic kinetic investigation of the reduction of aryl-nitroso compounds by pyridine and flavin coenzymes and their analogs, in enzymatic and nonenzymatic systems, has been reported. 2. Two main groups of nitroso compounds have been investigated, representatives nitroso-benzene and 1-nitroso-2-naphthol; in all enzymatic and nonenzymatic systems, the former was always reduced to phenyl-hydroxyl-amine and the latter to 1-amino-2-naphthol. 3. Pyridine compounds included NADH, APAD-4H2 and DBNA-4H2 in nonenzymatic systems, and liver alcohol dehydrogenase. Flavin compounds included 1,5-dihydrolumiflavin and various forms of reduced 5-ethyl-lumiflavin, in nonenzymatic systems, and the flavoenzymes glucose-oxidase and NADPH-cytochrome P450 reductase. 5. Pyridine coenzymes and their analogs reduced nitroso compounds by a direct hydride transfer, with a primary kinetic isotope of 9.5 +/- 2.2. 6. All flavin compounds (glucose-oxidase and its nonenzymatic analog 1,5-dihydrolumiflavin and NADPH-cytochrome P450 reductase and its analog 5-ethyl-1,5-dihydrolumiflavin) reduced aryl-nitroso compounds with high efficiency (k2 greater than 10(5)M(-1) min(-1)). 7. The flavin compounds have been shown to be much more efficient reductans of nitroso compounds, compared to pyridine coenzymes, both in enzymatic and nonenzymatic systems; the only exception to this rule presented the extremely efficient reduction of p-substituted aryl-nitroso compounds by liver alcohol dehydrogenase.
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PMID:Reduction of aryl-nitroso compounds by pyridine and flavin coenzymes. 253 Oct 98

It has been proposed that the alpha-glycerophosphate (alpha-GOP) shuttle plays a crucial role in regulation of glycolysis in beta-cells by linking reoxidation of cytosolic NADH to formation of ATP in the electron transport chain (J. Biol. Chem. 265: 8287, 1981). Direct evidence for this suggestion is still lacking, however. In this work the operation of the alpha-GOP shuttle was investigated in the insulin-secreting cell line HIT-T15. The constituent enzymes of the pathway were found to be present in HIT cells. Flavin-linked alpha-GOP dehydrogenase was associated with the mitochondrial fraction, whereas NAD+-dependent alpha-GOP dehydrogenase was localized in the cytosol. In the presence of amobarbital (used to preserve the function of the alpha-GOP shuttle under conditions where oxidation of NADH by the respiratory chain was blocked), glucose increased insulin secretion, O2 consumption, and the cell [ATP]/[ADP] when compared with amobarbital alone. These results indicate that the alpha-GOP shuttle contributes to ATP generation in HIT cells and that its activation may be necessary for the initiation of insulin secretion by glucose.
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PMID:alpha-Glycerophosphate shuttle in a clonal beta-cell line. 264 40

In this study, we investigated the mechanism of the arrhythmogenic action of chlorpromazine (CPZ). Thirty-two anesthetized mongrel dogs were used. In each, the chest was opened and a stimulating electrode was attached to the apex of the left ventricle and the ventricular multiple response threshold (VMRT) was measured. The carotid artery was cannulated to measure aortic pressure. The dogs were divided into four groups, and the time course of VMRT, blood pressure, and heart rate were determined. All groups were placed under observation for 30 min after CPZ infusion. In the control group, only saline (2ml/kg) was infused; CPZ group: CPZ (Img/kg) was infused 10 min after saline (2ml/kg) infusion; CoQ10 group: Coenzyme Q10 (CoQ10) (5mg/kg) was infused 10 min before CPZ (Img/kg) infusion; FAD group: Flavin-adenine-dinucleotide (FAD) (2mg/kg) was infused 10 min before CPZ (Img/kg) infusion. In each group, myocardial mitochondria were prepared 30 min after CPZ infusion. The mitochondrial functions, respiratory control index, AdP/O, State III rate of oxygen consumption, and activities of two segments of the electron-transport chain (NADH leads to CoQ leads to cyt.c and cyt.c leads to cyt.a,a3 leads to O2) were measured separately. Ca++--binding activity of the mitochondria was also determined. CPZ administration decreased VMRT and blood pressure, and caused mitochondrial dysfunction which derived from a disturbance in the first segment of the electron transport chain. Decreased Ca++--binding activity was observed when mitochondrial function was disturbed. CoQ10 prevented significantly the decrease in VMRT and the disturbance of mitochondrial function induced by CPZ, but did not prevent the hypotensive effect of CPZ. FAD prevented not only the decrease in VMRT and the disturbance of mitochondrial function, but also the hypotensive effect of CPZ. These results suggest that the decrease in VMRT is closely related to mitochondrial dysfunction induced by CPZ. Moreover, it is suggested that the arrhythmogenic effect of CPZ is derived from the decreased mitochondrial Ca++--binding activity.
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PMID:Mechanism of chlorpromazine-induced arrhythmia -- arrhythmia and mitochondrial dysfunction. 616 51

The apoenzyme of Pseudomonas cepacia salicylate hydroxylase was prepared by a dialysis method. The apoprotein retains a dimeric structure and binds one FAD per monomer. Flavin binding results in both 81 and 60% of quenching and 15- and 5-nm blue shifts of FAD and protein fluorescence, respectively. A hydrophobic environment for the flavin site and a conformational difference between apoprotein and holoenzyme are thus indicated. Prior binding of NADH markedly retards the holoenzyme activity development upon a subsequent FAD addition. Flavin 1,N6-ethenoadenine dinucleotide binds to the apoenzyme much more weakly than FAD but this reconstituted holoenzyme and the FAD X enzyme both exhibit similar activities. The adenine moiety appears to be important to binding. The formation of holoenzyme from apoprotein and FAD involves minimally a two-step reversible process, an initial flavin-binding step followed by a conformational transition. At both 6 and 23 degrees C, the rates of hydroxylase activity recovery can be correlated with the rates of FAD binding, indicating that the initial FAD X apoenzyme complex is fully active and the subsequent slow conformational change has no significant effect on the catalytic efficiency. Overall dissociation constants calculated based on kinetic data are essentially identical with those determined by equilibrium measurements.
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PMID:Apoenzyme of Pseudomonas cepacia salicylate hydroxylase. Preparation, fluorescence property, and nature of flavin binding. 669 80

Flavin-free cytochrome b5 reductase was reconstituted with 1-deazaflavin and 5-deazaflavin mononucleotides and dinucleotides. The 5-deazaenzyme functioned in transhydrogenation reactions but lacked electron transferase activity. The 1-deazaenzyme was fully competent for both input and output reactions. The flavin reduction rate was lowered about sevenfold upon N-1 substitution of FAD, but hydrogen abstraction from NADH remained the limiting step. Autoxidation of the reduced enzyme was more rapid than with the normal cofactor. Oxidation was accompanied by appearance of a transient blue-type semiquinone and superoxide ion production. Flavin-free apoflavodoxin was reconstituted with 1-deaza-1-carbaflavin mononucleotide (1-deaza-FMN). Its behaviour toward dithionite and oxygen was qualitatively highly similar to that of native flavodoxin. These observations contrast with the fact that apoflavocytochrome b2 could not be reconstituted with 1-deaza-FMN [Pompon. D. and Lederer, F. (1979) Eur. J. Biochem. 96. 571-579]. These results, as well as other data from the literature, are discussed in the light of existing hypotheses, which try to correlate flavin protein interactions and flavoprotein function.
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PMID:Reconstitution of liver NADH: cytochrome b5 oxidoreductase and of Desulfovibvio vulgaris flavodoxin with 1-carba-1-deazaflavin. 715 84

The role of flavins in vitamin K function was assessed by examining blood coagulation and in vitro activities of hepatic vitamin K-dependent enzymes from control and riboflavin-deficient rats. One-stage prothrombin times and Factor VII activities were lower in flavin-deficient rats than in ad libitum or pair-fed controls. Fibrinogen, prothrombin, and Factor X activities were normal. Hepatic vitamin K-dependent carboxylase activity was severely depressed in flavin-deficient rats when assayed with [vitamin K + NADH] and somewhat depressed with reduced vitamin K (vitamin KH2) as substrate. One-hour flavin repletion appreciably restored [vitamin K + NADH]-dependent activity, but vitamin KH2-dependent activity was not restored even after 16 hours repletion. These results suggest that the carboxylating enzyme itself is not a flavoprotein, but that the microsomal NADH dehydrogenase required for [vitamin K + NADH]-dependent carboxylation is a flavoprotein. This dehydrogenase may differ from the cytosolic Warfarin-inhibitable 'DT-diaphorase' in that the activity of the latter, which is reduced 50% in flavin-deficient rats, is not at all restored by one-hour flavin repletion. Flavin status-dependent differences in NADH-dependent or vitamin KH2-dependent epoxidation of vitamin K paralleled differences in the carboxylase. Flavin deficiency had no effect on vitamin K 2,3-epoxide reductase activity nor on its inhibition by Warfarin.
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PMID:Vitamin K-dependent reactions in rat liver: role of flavoproteins. 731 May 34

The behaviour of cytochrome b5 reductase holoenzyme and apoenzyme toward blue-dextran--Sepharose has been studied. Holoenzyme was adsorbed at low ionic strength and could be eluted with 100 microM NADH or NAD+. Flavin-free enzyme was even more strongly bound and could be eluted with 1 M NaCl, or 100 microM NADH + 10 microM FAD. Separately the cofactors were without effect. FMN was less effective than FAD. ADP and AMP eluted nothing. Cibacron blue F3GA was found to exert a mixed inhibition on NADH oxidation. Dye binding to holoenzyme elicited a characteristic red shift in its spectrum. Comparison of the difference spectrum amplitude at 680 and 585 nm showed the presence of a second binding mode at higher dye concentrations. These results point to the existence for cytochrome b5 reductase of two binding sites with high affinity for blue-dextran--Sepharose: the NADH binding site and flavin binding site. For the latter it is clear that isoalloxazine pocket must play a role in dye binding. Cytochrome b5 reductase is the second flavoenzyme which has been shown to have affinity for immobilized dye at the flavin site, the first one being flavocytochrome b2, and FMN-dependent enzyme [D. Pompon and F. Lederer (1978) Eur. J. Biochem. 90, 563--569].
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PMID:Binding of Cibacron blue F3GA to the flavin and NADH sites in cytochrome b5 reductase. 743 74

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