Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.5.2 (NQO1)
 6,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human spermatozoa possess a specialized capacity to generate reactive oxygen species (ROS) that is thought to be of significance in the redox regulation of sperm capacitation (De Lamirande and Gagnon, 1993; Aitken et al., 1995). However, the mechanisms by which ROS are generated by these cells are not understood. In this study we have examined the possible significance of NADPH as a substrate for ROS production by human spermatozoa. Addition of NADPH to viable populations of motile spermatozoa induced a sudden dose-dependent increase in the rate of superoxide generation via mechanisms that could not be disrupted by inhibitors of the mitochondrial electron transport chain (antimycin A, rotenone, carbonyl cyanide m-chlorophenylhydrazone [CCCP], and sodium azide), diaphorase (dicoumarol) xanthine oxidase (allopurinol), or lactic acid dehydrogenase (sodium oxamate). However, NADPH-induced ROS generation could be stimulated by permeabilization and was negatively correlated with sperm function. Both NADH and NADPH were active electron donors in this system, while NAD+ and NADP+ exhibited little activity. Stereo-specificity was evident in the response in that only the beta-isomer of NADPH supported superoxide production. The involvement of a flavoprotein in the electron transfer process was indicated by the high sensitivity of the oxidase to inhibition by diphenylene iodonium and quinacrine. These results indicate that NAD(P)H can serve as an electron donor for superoxide generation by human spermatozoa and present a simple strategy for the production of motile populations of free radical generating cells with which to study the significance of these molecules in the control of normal and pathological sperm function.
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PMID:Reactive oxygen species generation by human spermatozoa is induced by exogenous NADPH and inhibited by the flavoprotein inhibitors diphenylene iodonium and quinacrine. 921 32

We have synthesized nitroaromatic derivatives of triterpenoid betulin (lup-20(29)-ene-3 beta, 28-diol), betulin-(28)-5'-(aziridin-1-yl)-2',4'-dinitrobenzoate and betulin-(28)-5'-nitro-2'-furoate. These compounds were reduced in single-electron way by ferredoxin: NADP+ reductase and flavocytochrome b2 at rates comparable with their simple structure analogs. Besides, these compounds were substrates for DT-diaphorase. Their toxicity to bovine leukemia virus-transformed lamb fibroblast culture was partly prevented by antioxidant N,N'-diphenyl-p-phenylene diamine and desferrioxamine, indicating an involvement of oxidative stress in their cytotoxicity.
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PMID:Nitroaromatic betulin derivatives as redox cycling agents. 923 38

We have synthesized a number of nitrobenzimidazoles containing nitro groups in the benzene ring and found that they acted as relatively efficient substrates for rat liver DT-diaphorase (EC 1.6.99.2), their reactivity exceeding reactivities of nitrofurans and nitrobenzenes. Nitrobenzimidazoles were competitive with NADPH inhibitors of DT-diaphorase in menadione reductase reactions, their inhibition constant being unchanged in the presence of dicumarol and being increased in the presence of 2',5'-ADP. These data indicate that the poor reactivity of nitrobenzimidazoles and other nitroaromatics in comparison to quinones could be determined by their binding in the adenosine-phosphate binding region of the NADPH-binding site, whereas quinones bind at the nicotinamide-binding pocket at the vicinity of FAD of DT-diaphorase. The reduction of 4,5,6-trinitrobenzimidazol-2-one by DT-diaphorase most probably involves reduction of 5-nitro group to 5-nitroso or 5-hydroxylamine derivative at the initial step. A certain parallelism existed between reactivities of nitrobenzimidazoles toward DT-diaphorase and their reactivities in single-electron reduction by Anabaena ferredoxin:NADP+ reductase (EC 1.18.1.2) and Saccharomyces cerevisiae flavocytochrome b2 (EC 1.1.2.3), the latter being determined by electronic factors. However, we suppose that the relatively high reactivity of polinitrobenzimidazoles toward DT-diaphorase was due not only to electronic effects, but also to a sterical crowding of nitrogroups by each other. The toxicity of nitrobenzimidazoles to bovine leukemia virus-transformed lamb kidney fibroblasts (line FLK) with a moderate amount of DT-diaphorase (260 U/mg protein) is partly prevented by dicumarol. That points out to partial determination of nitrobenzimidazole cytotoxicity by their reduction by DT-diaphorase. Another important factor of nitrobenzimidazole toxicity to this cell line was oxidative stress, catalyzed by single-electron transferring enzymes.
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PMID:Nitrobenzimidazoles as substrates for DT-diaphorase and redox cycling compounds: their enzymatic reactions and cytotoxicity. 934 69

A new strategy directed to the durable immobilization of NAD(+)/NADH cofactors has been tested, along with a suitable redox mediator (ferrocene), in biocompatible sol-gel matrices encapsulating a bi-enzymatic system (a dehydrogenase and a diaphorase, this latter being useful to the safe regeneration of the cofactor), which were deposited as thin films onto glassy carbon electrode surfaces. It involves the chemical attachment of NAD(+) to the silica matrix using glycidoxypropylsilane in the course of the sol-gel process (in smooth chemical conditions). This approach based on chemical bonding of the cofactor (which was checked by infrared spectroscopy) led to good performances in terms of long-term stability of the electrochemical response. The possibility to integrate all components (proteins, cofactor, mediator) in the sol-gel layer in an active and durable form gave rise to reagentless devices with extended operational stability (i.e. high amperometric response maintained for more than 12h of continuous use under constant potential, whereas the signal completely vanished within the first few minutes of working with non-covalently bonded NAD(+)). To confirm the wide applicability of the proposed approach, the same strategy has been applied to the elaboration of biosensors for D-sorbitol, D-glucose and L-lactate with using D-sorbitol dehydrogenase, D-glucose dehydrogenase and L-lactate dehydrogenase respectively. The analytical characteristics of the glucose sensors are given and compared to previous approaches described in the literature for the elaboration of reagentless biosensors.
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PMID:Durable cofactor immobilization in sol-gel bio-composite thin films for reagentless biosensors and bioreactors using dehydrogenases. 2219