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)

The activities of alkaline phosphatase, NAD diaphorase and NADP diaphorase increased in infantile mouse ovaries in response to injected gonadotrophins. The distribution and activity of these enzymes were studied in detail in the ovaries of normal mice from 1 to 41 days after birth and in mice injected at various ages with FSH, LH and HCG. Granulosa cells contained NAD and NADP diaphorases. Thecal cells contained NADP diaphorase and alkaline phosphatase with NAD diaphorase first appearing in the thecae of larger follicles 11 days after birth. All three enzymes occurred in interstitial tissue, in the interfollicular stroma and in groups of gonadotrophin-responsive cells in the medulla. These medullary cells and the interstitial tissue were stimulated by exogenous LH and HCG but not by FSH. Granulosa, theca and interfollicular tissue were stimulated at some stage by each of the three injected hormones. The normal pattern of development is discussed in relation to the changing serum levels of endogenous gonadotrophin found in similar mice. It is concluded that the enzyme changes were closely and reciprocally related to endogenous hormone concentrations.
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PMID:Histochemical studies on three gonadotrophin-responsive enzymes in the infantile mouse ovary. 112 17

1. Lipoyl dehydrogenase (NADH: lipoamide oxidoreductase, ED 1.6.4.3) and two asparagusate dehydrogenases from asparagus mitochondria were purified by a series of steps, freezing and thawing, sodium dodecylsulfate extraction, and chromatography on Sephadex G-200 and DEAE-cellulose. 2. Lipoyl dehydrogenase was highly specific for alpha-lipoic acid, which could not be replaced at all by asparagusic acid. Each of the asparagusate dehydrogenases was capable of reducing both asparagusic and alpha-lipoic acids by using NADH as hydrogen donor. 3. Reduction of alpha-lipoic cid with NADH by lipoyl dehydrogenase was activated by NAD, but that of asparagusic acid by asparagusate dehydrogenase was inactivated by NAD. 4. Lipoyl dehydrogenase and two asparagusate dehydrogenases differed in electrophoretic mobility on polyacrylamide gels.
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PMID:Asparagusate dehydrogenases and lipoyl dehydrogenase from asparagus mitochondria. 112 55

A histichemical study is presented of the activity of some redox enzymes (succinate dehydrogenase, malate dehydrogenase, NAD-diaphorase and lactate dehydrogenase) in 37 cultured human glial brain tumours. The stages of cell activity at different periods of tumour cultivation and the level of their differentiation in the initial tissue were taken into consideration. The examined tumour cultures showed enzymatic cell polymorphizm. During of period of adaptation of explants, the activity of the Krebs cycle enzymes was low to increase during differentiation and proliferation of cultures. The activity of lactate dehydrogenase elevated in tumour cells from cultures of dedifferentiated astrocytomas and glioblastomas mith marked anaplasia. The activity of this enzyme increased also in the course of advanced necrobiotic changes in the tumour cells.
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PMID:[Histochemical study of the enzymatic activity of cultivated human macroglial brain tumors]. 116 47

The activity of 19 enzymes (hexokinase, glucoso-6-phosphatisomerase, alpha-glycerophosphate-, lactate-, succinate-, isocitrate-, malate-, glucoso-6-phosphate-, 6-phosphogluconate-, glutamate-, alcohol-, inosine-5'-phosphate-, guanosine-5'-monophosphate-dehydrogenase, cytochromoxidase NAD.N2- and NADP.N2-diaphorase, monoaminoxidase, alkaline and acid phosphatase) was studied comparatively in the mucosa of control rats and in tumors of the small intestine (27), and large intestine (176), induced in 41 rats percutaneously by 1,2-dimethylhydrazine. A decreased level of the enzymes of tissue respiration and Krebs cycle was found with a simultaneous increase in the activity of the enzymes of glycolysis and pentoso-monophosphate shunt. These data evidence variations in tumor metabolism consisting in oxidizing phosphorylation, being replaced by aerobic glycosis, and also reflecting an intensive proliferation of tumor cells.
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PMID:[An enzymohistochemical study of experimental tumors of the intestine]. 123 60

A study of ingestion and elimination of cells of peritoneal exudate (CPE) of mouse labeled antigens of various physico-chemical nature with a simultaneous analysis of their influence on the function of the enzymatic systems of macrophages showed that both the corpuscular (sheep erythrocytes, typhoid vaccine) and the soluble (albumin, endotoxin of S. typhi, tetanus and staphylococcus toxoid) antigens caused a unitypical reaction of the cells of monocytic phagocytic system. Thirty minutes after the administration the principal mass of labeled antigens (albumin, typhoid vaccine, sheep erythrocytes) was phagocytized by macrophages and was revealed chiefly in their phagolysosomal fraction. The greater part of radioactive material was eliminated in the course of the first 24 hours; however, some of it could be found in the macrophages for a long time. During the process of phagocytosis the activity of lysosomal (catepsin, acid phosphatase, desoxyribonuclease, beta-glucoronidase) enzymes in the macrophages decreased and the activity of redox (succinic dehydrogenase, NAD-N2-diaphorase) enzymes became intensified. A fall of catepsin activity in the CPE of mice 30 minutes after the intraperitoneal administration of the antigens was accompanied by its activation in the cells of the spleen.
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PMID:[General regularities of the macrophage reaction in the administration of various antigens and the phagocytosis of microorganisms]. 126 63

Mycotic foci were studied histochemically on various experimental models of candidiasis. NAD-H, NADP-H-diaphorase, acid phosphatase and ATPase were revealed in the fungi, the activity of these enzymes depended on the state of the fungus. Diaphorase activity in the mucous membrane epithelium falls only if it is damaged by massive invasion of pseudo-mycelium. Inhibition of the enzyme activity in the visceral foci (kidney, liver, heart) occurs only in case of pronounced destruction and is not observed at the distance from the fungi. The results do not confirm the idea of fungal secretion of mycotoxins penetrating into the surrounding tissues and damaging them.
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PMID:[Histochemical study of lesions in superficial and visceral candidiasis]. 129 70

Environmental and clinical isolates of mercury-resistant (resistant to inorganic mercury salts and organomercurials) bacteria have genes for the enzymes mercuric ion reductase and organomercurial lyase. These genes are often plasmid-encoded, although chromosomally encoded resistance determinants have been occasionally identified. Organomercurial lyase cleaves the C-Hg bond and releases Hg(II) in addition to the appropriate organic compound. Mercuric reductase reduces Hg(II) to Hg(O), which is nontoxic and volatilizes from the medium. Mercuric reductase is a FAD-containing oxidoreductase and requires NAD(P)H and thiol for in vitro activity. The crystal structure of mercuric ion reductase has been partially solved. The primary sequence and the three-dimensional structure of the mercuric reductase are significantly homologous to those of other flavin-containing oxidoreductases, e.g., glutathione reductase and lipoamide dehydrogenase. The active site sequences are the most conserved region among these flavin-containing enzymes. Genes encoding other functions have been identified on all mercury ion resistance determinants studied thus far. All mercury resistance genes are clustered into an operon. Hg(II) is transported into the cell by the products of one to three genes encoded on the resistance determinants. The expression of the operon is regulated and is inducible by Hg(II). In some systems, the operon is inducible by both Hg(II) and some organomercurials. In gram-negative bacteria, two regulatory genes (merR and merD) were identified. The (merR) regulatory gene is transcribed divergently from the other genes in gram-negative bacteria. The product of merR represses operon expression in the absence of the inducers and activates transcription in the presence of the inducers. The product of merD coregulates (modulates) the expression of the operon. Both merR and merD gene products bind to the same operator DNA. The primary sequence of the promoter for the polycistronic mer operon is not ideal for efficient transcription by the RNA polymerase. The -10 and -35 sequences are separated by 19 (gram-negative systems) or 20 (gram-positive systems) nucleotides, 2 or 3 nucleotides longer than the 17-nucleotide optimum distance for binding and efficient transcription by the Escherichia coli sigma 70-containing RNA polymerase. The binding site of MerR is not altered by the presence of Hg(II) (inducer). Experimental data suggest that the MerR-Hg(II) complex alters the local structure of the promoter region, facilitating initiation of transcription of the mer operon by the RNA polymerase. In gram-positive bacteria MerR also positively regulates expression of the mer operon in the presence of Hg(II).
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PMID:Bacterial resistances to inorganic mercury salts and organomercurials. 131 Nov 13

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

Characteristics of DT diaphorase (NAD(P)H: (quinone acceptor) oxidoreductase, DTD) activity in Ictalurus punctatus and the effect of DTD activity on menadione (MND)-mediated reduction of acetylated cytochrome c (AcC) were examined. DTD activity in cytosols of four organs followed a distinct gradient in the order stomach greater than gill greater than liver greater than posterior kidney. A similar gradient was observed in organ-specific rates of in vitro AcC reduction in the presence of either NADH or NADPH as reducing equivalent. A greater proportion of the AcC reduction rate was sensitive to inhibition by dicoumarol (DC) in organs with relatively high DTD specific activity (e.g., stomach) than in organs with low DTD activity (e.g., kidney). No such trend was observed in the superoxide dismutase (SOD)-sensitive proportion of AcC reduction rates. DTD was observed to contribute to MND-mediated superoxide production to a greater extent in organs with high DTD activity than in organs with low DTD activity. DC-sensitive (i.e., DTD-mediated) AcC reduction was observed to increase with organ-specific DTD activity, and the majority of the AcC reduction rate was inhibitable by SOD. These findings demonstrate a direct contribution by DTD activity to MND-mediated superoxide production in this in vitro system. The role of I. punctatus DTD as a possible deleterious agent in quinone metabolism and implications regarding the traditional conception of DTD as a detoxifying enzyme are discussed.
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PMID:DT diaphorase [NAD(P)H: (quinone acceptor) oxidoreductase] facilitates redox cycling of menadione in channel catfish (Ictalurus punctatus) cytosol. 131 45

Dicumarol, often used as a specific inhibitor of DT diaphorase (NAD(P)H:(quinone-acceptor) oxidoreductase; EC 1.6.99.2), was found to potently inhibit GSH transferases (EC 2.5.1.18). Dicumarol exhibited an IC50 of 11 microM in inhibiting the conjugation of 1-chloro-2,4-dinitrobenzene (50 microM) by GSH transferase GT-8.7, the major hepatic class mu isoenzyme of CD-1 mice. The activities of GT-8.7 and of the class pi isoenzyme, GT-9.0, toward a carcinogenic substrate, 4-nitroquinoline 1-oxide (100 microM), were inhibited by dicumarol with IC50 values of 14 and 9 microM, respectively. Dicumarol also affected GSH peroxidase II activity, inhibiting the reduction of cumene hydroperoxide by GT-10.6, the predominant class alpha GSH transferase of mouse liver, with an IC50 of 14 microM. GSH peroxidase I (EC 1.11.1.9) and GSH peroxidase II activities were resolved by chromatography of liver and testis cytosols. While inhibiting GSH peroxidase II with IC50 of 9-10 microM, dicumarol did not affect the activity of the selenoenzyme, GSH peroxidase I. Whereas several other non-substrate ligands were more potent inhibitors of 1-chloro-2,4-dinitrobenzene conjugation, dicumarol effectively inhibited GSH transferase and GSH peroxidase II activities in the range of dicumarol concentrations frequently used for detection of DT diaphorase action. These results indicate that physiological consequences resulting from the use of supramicromolar concentrations of dicumarol should not be interpreted in terms of DT diaphorase inhibition alone.
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PMID:Inhibition of mouse glutathione transferases and glutathione peroxidase II by dicumarol and other ligands. 138 26

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