Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: KEGG:D02011 (FAD)
5,530 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat liver microsomes exhibit nifurtimox (NFX) nitroreductase activity, which is mostly NADPH-dependent and is completely abolished by heating and under an atmosphere of air. Pure carbon monoxide inhibits for 28% microsomal NFX nitroreductase activity while FAD 1 mM significantly enhances it. Smaller activities than in liver were found in brain, small intestine, testes, lung and heart. Rat liver cytosol also showed NFX nitroreductase activity using either hypoxanthine or N-methylnicotinamide as substrates. These activities were inhibited by allopurinol or menadione respectively. Results suggest that cytochrome P-450, NADPH cytochrome c reductase, xanthinoxidase and aldehyde oxidase are able to reduce NFX nitrogroups in rat liver and other tissues.
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PMID:Studies on nifurtimox nitroreductase activity in liver and other rat tissues. 649 2

Antibodies to NADPH-cytochrome P-450 reductase have been used to essentially abolish the contribution of cytochrome P-450 to xenobiotic metabolism by mammalian microsomes. This permits the determination of the activity of the FAD-containing mono-oxygenase and the stoichiometry between substrate, O2 and NADPH, in the microsomal membrane, and in the absence of cytochrome P-450-dependent activity. FAD-containing mono-oxygenase oxidation rates were determined for sulphur- and nitrogen-containing substrates, including: thiols; sulphides; thioamides; primary, secondary and tertiary amines; hydrazines. Although the enzyme in mouse, rabbit, rat and pig microsomes displays similar substrate specificity, some catalytic characteristics are different between species and tissues.
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PMID:The measurement of FAD-containing mono-oxygenase activity in microsomes containing cytochrome P-450. 650 63

By techniques involving differential centrifugation and specific precipitation with CaCl2, it was shown that dimethylamine and trimethylamine mono-oxygenase activities co-sediment with NADPH-cytochrome c reductase activity in sphaeroplast lysates of Candida utilis grown on trimethylamine as sole nitrogen source. Since the active fraction also contained low levels of cytochromes P-450 and P-420, it was concluded that the two amine mono-oxygenases are located in the smooth endoplasmic reticulum and thus end up in the microsomal fraction on cell fractionation. Ten to twenty-fold enrichment of mono-oxygenase specific activity could be achieved by separation of activity from soluble protein by centrifugation or gel filtration. Cell-free extracts prepared in the absence of FAD showed only very low mono-oxygenase activity for either substrate. Some activity could be restored by addition of flavin nucleotides: there was a fivefold stimulation by FAD and a fourfold stimulation by FMN. All trimethylamine mono-oxygenase activity was lost when a partially purified preparation containing both activities was incubated for more than 24 h at 0 degrees C, suggesting that separate enzymes are responsible for the oxidation of secondary and tertiary amines. The enzyme preparation oxidized a wide range of secondary alkylamines up to dibutylamine and tertiary alkylamines up to tributylamine. Primary amines, choline, di- and triethanolamine, spermine, spermidine and substituted anilines were not oxidized. NADH had a lower apparent Km value and higher Vmax value than NADPH. Secondary and tertiary alkylamines containing more than one kind of alkyl group gave more than one kind of aldehyde on oxidation. Stoicheiometry determinations showed a consumption of 1 mol NAD(P)H and 1 mol O2 per mol aldehyde formed. Carbon monoxide, cyanide, proadifen hydrochloride (SKF 525-A), mercurials and mercaptoethanol all inhibited both activities.
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PMID:Subcellular localization and properties of partially purified dimethylamine and trimethylamine mono-oxygenase activities in Candida utilis. 654 83

The enzymic N-oxidation of a series of N-unsubstituted basic benzamidines (I) to a new type of metabolite, the amidoximes (II), is reported. Rabbit liver homogenates (9000 g supernatant) were used as enzyme source, and metabolites were identified by t.l.c. and mass spectral analysis using synthetic reference compounds. The microsomal NADPH- and oxygen-dependent hydroxylation of benzamidines was not detected after incubation of benzamidine in the presence of SKF 525-A, a known inhibitor of cytochrome P-450. Neither benzamidine or p-methoxybenzamidine is a good substrate for purified microsomal FAD-containing mono-oxygenase.
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PMID:The N-oxidation of benzamidines in vitro. 664 80

In a previous study, it was shown that the peroxisomal fraction of rat liver, isolated by Percoll gradient centrifugation of a light mitochondrial fraction, was able to catalyze conversion of 3 alpha, 7 alpha, 12 alpha-trihydroxy-5 beta-cholestanoic acid (THCA) into cholic acid (Pedersen, J. I., and J. Gustafsson, 1980. FEBS Lett. 121: 345-348). In the present work, this peroxisomal THCA-oxidizing system has been studied in more detail. The peroxisomes were prepared by sucrose gradient centrifugation. By use of different marker enzymes, it was confirmed that the major part of the activity in the light mitochondrial fraction was located in the peroxisomes. The reaction was absolutely dependent on the presence of Mg2+, CoA, ATP, and NAD+ in the reaction medium. In addition to cholic acid, small amounts of 3 alpha, 7 alpha, 12 alpha, 24-tetrahydroxy-5 beta-cholestanoic acid were detected as product. Provided the peroxisomes were preincubated with ATP and CoA, the reaction was linear with time up to 75 min. It was linear with peroxisomal protein and the pH optimum was 8. The reaction was stimulated by FAD (ca. 50%), by cytosolic protein (about twofold), by microsomal protein (about twofold), bovine serum albumin (about sevenfold), and by KCN (75% at 1 mM). In the absence of bovine serum albumin in the medium the K'm for the overall reaction was 1.4 X 10(-6) M and the maximum rate was 4.3 nmol X mg-1 X hr-1. In the presence of bovine serum albumin, the K'm increased to 6.3 X 10(-6) M and the maximum rate to about 32 nmol X mg-1 X hr-1.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Formation of cholic acid from 3 alpha, 7 alpha, 12 alpha-trihydroxy-5 beta-cholestanoic acid by rat liver peroxisomes. 666 50

Experiments were undertaken to investigate the hepatic, temporal and spatial sequence of events following a single injection of cocaine, a known hepatotoxin. Centrilobular necrosis was induced in male mice (DBA/2Ha) 24 hr post-injection (PI). The time course of hepatic damage was monitored by assaying microsomal cytochrome P450 content, the activity of microsomal FAD-containing monooxygenase (FAD-M) and by determining the levels of serum glutamic pyruvic transaminase (SGPT). Kinetics of the onset of DNA synthesis were determined by autoradiography of thin liver sections and the incorporation of 3H-methyl thymidine into perchloric-acid-precipitable material. There was no increase in the labelling index (LI) and thymidine (TdR) incorporation in the first 24 hr PI. The LI rose to 14.6% and TdR incorporation showed a 5-fold increase over control values 48 hr PI. Both indices declined slightly at 72 hr PI and returned to control values by 96 hr PI. In contrast, the cytochrome P450 content declined by 69%, the FAD-M activity dropped by 40% and the SGPT levels showed an 18-fold increase at 24 hr PI, coincident with cytological signs of necrosis. Although the patterns of recovery differed between these selected enzymes, normal values were attained by 96 hr PI. These results demonstrate that cell damage and hepatic dysfunction precede the onset of DNA synthesis and subsequent proliferation.
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PMID:Proliferative response and renewal of hepatic function following cocaine administration in mice. 669 71

Benznidazole (Bz) (N-benzyl-2-nitro-1-imidazole-acetamide) is a drug used against Chagas' disease. Rat liver microsomal and cytosolic fractions, but not mitochondria, exhibited Bz nitroreductase activity under anaerobic conditions in the presence of NADPH. Microsomal nitroreductase activity was enhanced by FAD and was inhibited totally by oxygen and partially by carbon monoxide. Liver cystosol fraction was able to reduce Bz nitrogroups in the presence of either N-methylnicotinamide or hypoxanthine as substrates. These enzyme activities were inhibited by menadione or allopurinol respectively. Under every experimental condition leading to enzymatic reduction of Bz nitrogroups and its inhibition or enhancement, reactive metabolites that bind covalently to proteins were also produced. This covalent binding was effectively prevented by reduced glutathione. Results suggest the participation of cytochrome P-450 and cytochrome c reductase in liver microsomal processes and of xanthine oxidase and aldehyde oxidase in liver cytosolic processes of Bz nitroreduction and activation to reactive metabolites that bind covalently to proteins. Possible pharmacological and toxicological implications of the described observations were discussed.
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PMID:Reductive metabolism and activation of benznidazole. 671 14

To evaluate the different contributions of either microsomal FAD-containing ( FADM ) or cytochrome P-450 dependent monooxygenases in the bioactivation and liver toxicity of thioacetamide-S-oxide ( TASO ) (a proximate metabolite of the liver toxin and carcinogen thioacetamide), this compound: (i) was given to rats pretreated with methimazole (a substrate and inhibitor of FADM ), SKF 525-A (an inhibitor of cytochrome P-450) and cobalt protoporphyrin IX (a synthetic porphyrin which induces a long-lasting depletion of the hepatic cytochrome P-450); and (ii) was added to liver microsomes performing oxidation of model FADM or cytochrome P-450 substrates. Whereas the prior administration of methimazole alleviated the TASO induced liver necrosis, SKF 525-A was almost ineffective. Also pretreatment with cobalt protoporphyrin IX prevented liver necrosis. However, this porphyrin derivative was found to depress both cytochrome P-450 dependent and the FADM dependent biotransformations. On the other hand, addition of TASO to liver microsomes in vitro induced changes in the kinetics of S-oxidation of thiobenzamide and of N-oxidation of dimethylaniline, whereas the O-deethylation of ethoxycoumarin was unchanged. The overall results show the necessity of TASO bioactivation by mixed-function monooxygenases for the toxic action to be apparent; at the same time, the findings suggest FADM as the system mainly involved in TASO metabolism.
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PMID:Role of the microsomal FAD-containing monooxygenase in the liver toxicity of thioacetamide S-oxide. 672 35

Rat liver microsomal NADPH-cytochrome P-450 reductase was prepared free of detectable amounts of FMN by a new procedure based on the exchange of this flavin into apoflavodoxin. The resulting FMN-free reductase binds NADP in the oxidized state with the same affinity (Kd = 5 microM) and stoichiometry (1:1 molar ratio) as does the native enzyme. Both the native and FMN-free reductase catalyze rapid reduction of ferricyanide, but the ability to reduce th 5,6-benzoflavone-inducible form of the liver microsomal cytochrome P-450 (P-450LM4) is lost upon removal of FMN. The FMN-free enzyme was reconstituted with artificial flavins which, in the free state, have oxidation-reduction potentials ranging from -152 to -290 mV, including 5-carba-5-deaza-FMN and several FMN analogs with a halogen or sulfur substituent on the dimethylbenzene portion of the ring system. Enzyme reconstituted with 5-carba-5-deaza-FMN has catalytic properties which are not significantly different from those of the FMN-free reductase, and is unable to reduce P-450LM4. On the other hand, the ability to reduce P-450LM4 and the other FMN-dependent activities of the native reductase are restored by substitution of several other analogs for FMN, but the kinetics of P-450LM4 reduction, studied under anaerobic conditions by stopped flow spectrophotometry, are significantly altered. The oxidation-reduction behavior of enzyme reconstituted with 7-nor-7-Br-FMN is substantially different from that of the native enzyme, and less thermodynamic stabilization of the semiquinone is observed with this flavin analog. In contrast, the oxidation-reduction properties of enzyme containing 8-nor-8-mercapto-FMN are similar to those of the native enzyme, but the spectral properties are significantly different. As shown in a stopped flow experiment, reduction of this FMN analog precedes reduction of P-450LM4 when a complex of the flavoprotein and P-450LM4 is allowed to react with NADPH. Our experiments support a sequence of electron transfer in this enzyme system as follows: NADPH leads to FAD leads to FMN leads to P-450. We propose that the enzyme cycles between a le- and a 3e-reduced state during turnover and that electrons are donated to acceptors via the reaction, FMNH2 leads to FMNH ..
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PMID:Separate roles for FMN and FAD in catalysis by liver microsomal NADPH-cytochrome P-450 reductase. 677 61

Whole cells of Candida boidinii grown on di- or tri-methylamine as sole nitrogen source readily oxidized both amines. The oxidation was potently inhibited by carbon monoxide. Cell-free extracts required the presence of 20 microM FAD before mono-oxygenase activity with both amines could be demonstrated. NADH was a better electron donor than NADPH. Activity was present in cells grown on secondary and tertiary amines but not on primary amines, and was detected in a number of different yeasts. Enzyme activity could be sedimented at 187 000 x g, and was associated with NADPH-cytochrome c reductase activity. It is thus probably microsomal. Activity was inhibited by cyanide, mercaptoethanol, carbon monoxide and proadifen hydrochloride (SKF 525-A).
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PMID:Oxidation of dimethylamine and trimethylamine in methazotrophic yeasts by microsomal mono-oxygenases sensitive to carbon monoxide. 687 Sep 1


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