Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

At approximately equimolar concentrations (approximately 70 microM), and in the presence of excess catalase and superoxide dismutase, DCIP, ferricytochrome c and ferricyanide abstracted 21, 6 and 61%, respectively, of the electron equivalents given up by NADPH to the NADPH-O2 oxidoreductase complex derived from phorbol myristate acetate-stimulated human neutrophils. With a 10-fold increase in ferricyanide, all of the electron equivalents given up by NADPH to the oxidoreductase complex were shunted to ferricyanide concomitant with complete inhibition of NADPH-dependent O2 consumption. These results substantiate the existence of intrinsic diaphorase activity associated with the superoxide generating NADPH-O2 oxidoreductase of human neutrophils.
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PMID:Detection of NADPH diaphorase activity associated with human neutrophil NADPH-O2 oxidoreductase activity. 396 5

Lipoamide dehydrogenase from Escherichia coli, a dimeric flavoprotein in the pyridine nucleotide-disulfide oxidoreductase family of enzymes, catalyzes the reduction of NAD+ by dihydrolipoamide. The two electrons are transferred via a redox active disulfide and FAD. Cys44 and Cys49 comprise the redox active disulfide, Cys44 interchanging with dihydrolipoamide and Cys49 interacting with the flavin. Each of these residues has been mutated to serine (C44S, C49S). The altered enzymes showed minute amounts of activity, 0.003% for C44S and 0.012% for C49S using the physiological substrates dihydrolipoamide and NAD+. These very low activities were expected, since the disulfide was no longer present in C44S and C49S, making dithiol-disulfide interchange impossible. However, the enzymes were capable of catalyzing reactions using NADH as the electron donor and alternate electron acceptors: K3Fe(CN)6, thio-NAD+, DCIP, and O2. These activities with NADH indicated that interaction of C44S and C49S with pyridine nucleotides was not affected greatly by the mutation. The pH dependence of the charge-transfer absorbance of C44S gives pKa values of 2.7, associated with titration of Cys49, and 9.5, associated with titration of the acid-base catalyst, His444'. A pKa of 5.1 was estimated for Cys44 in C49S from the pH dependence of its reactivity with methyl methanethiosulfonate. The fluorescence of the FAD in oxidized wild type lipoamide dehydrogenase is markedly temperature dependent, while the remaining fluorescence of two-electron-reduced enzyme is independent of temperature. The fluorescence of the FAD in C44S and in C49S is likewise independent of temperature. The FAD of C44S and C49S is stoichiometrically titrated by 1 equiv of sodium dithionite. However, the FAD of C44S is markedly less completely reduced by 1 equiv of NADH than is the FAD of C49S. Ferricyanide stoichiometrically reoxidizes the FADH2 of both altered forms of the enzyme.
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PMID:Characterization of lipoamide dehydrogenase from Escherichia coli lacking the redox active disulfide: C44S and C49S. 754 8

Plasma membrane oxidoreductases have been described in all cells and use extracellular impermeant electron acceptors (DCIP, Ferricyanide) that are reduced by NADH. They appear to regulate the overall cell activity in response to oxidative stress from the cellular environment. An NADH-DCIP reductase has been described at the plasma membrane of NB41A3, a neuroblastoma cell line (Zurbriggen and Dryer (1993) Biochim. Biophys. Acta 1183, 513-520) whose activation with extracellular impermeant substrates promotes cell growth. Elutriation was performed to separate cells and the various fractions were analysed for enzyme activity on intact cells combined with flow cytometry. These studies showed that the enzyme is mostly induced and activated during the G1 and during the G2/M-phases. These observations were further corroborated with specific inhibitors of the cell cycle. A three-fold increase in enzyme activity was observed in the presence of alpha-amanitin, a specific cell cycle inhibitor of the G1-phase. Taxol, a specific inhibitor of the M-phase, also induces a significant increase in enzyme activity. FACS analysis of taxol -treated and alpha-amanitin-treated cells corroborated these data. The cells have been synchronized and the enzyme activity was measured at different time intervals. An activity increase was observed after ca. 2-3 h, that corresponds to a raise in the M-phase, according to FACS data. Furthermore, NTera-2 cells - a human neuroblastoma cell line that differentiates into fully mature neurones in the presence of retinoic acid - exhibit a 50% decrease in the enzyme activity during the G0-phase upon differentiation, compared to undifferentiated cells. Together the data presented in this paper show that this plasma membrane NADH-diaphorase affects cell growth and differentiation and is strongly modulated at various phases of the cell cycle.
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PMID:The plasma membrane NADH-diaphorase is active during selective phases of the cell cycle in mouse neuroblastoma cell line NB41A3. Its relation to cell growth and differentiation. 870 90