Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C1260386 (GSH)
 38,102 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We previously reported that pretreatment with endotoxin significantly reduced acute pulmonary O2 toxicity in lambs (J. Appl. Physiol. 65: 1579-1585, 1988). One of endotoxin's many effects is to inhibit cytochrome P-450 mono-oxygenation reactions, which are believed to produce toxic O2 species. Therefore, one possible explanation for endotoxin's beneficial effect is that it inhibited P-450-mediated O2 radical production during hyperoxia. To test this hypothesis, we administered a single dose of cimetidine, a noncompetitive inhibitor of P-450 activity, to nine lambs before continuous exposure to greater than 95% O2. Compared with six control O2-exposed lambs, the cimetidine-treated O2-exposed lambs maintained normal gas exchange for a longer period of time (P less than 0.01), accumulated lung water at a slower rate (P less than 0.01), and had normal microvascular permeability after 72 h of O2 exposure. Postmortem levels of antioxidant enzymes in blood-free lung homogenate were not increased in cimetidine-treated lambs. However, the levels of oxidized glutathione were significantly lower in cimetidine-treated lambs, and the ratio of reduced to oxidized glutathione concentrations (GSH/GSSG ratio) was sevenfold higher than the ratio measured in control O2-exposed lambs (P less than 0.001). In four lambs, pretreatment with ranitidine (a drug chemically related to cimetidine but without P-450 inhibitory activity) had no effect either on the time course of O2 injury or on postmortem antioxidants. Microsomes were isolated from blood-free lung of all study animals and P-450 activity of the form 2 isozyme was measured.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cimetidine reduces hyperoxic lung injury in lambs. 260 66

A long-term study, using male Wistar rats, was initiated to determine whether the effects of dietary constituents on AFB1-induced liver cancer could be associated with altered microsomal enzyme activity. They were maintained on mice pellets mixed with specific dietary constituents for 7 days and then given a single carcinogenic dose of AFB1 (500 micrograms/rat). After three months, the dietary constituents were discontinued and the animals were left on mice pellets and drinking water only for a period of about 20 months. At the end of the trial period, it was observed that dietary mixtures containing small quantities of either beta-carotene, ascorbic acid, GSH, vitamin E, selenium salt, or uric acid, effectively inhibited the development of AFB1-induced liver cancer and induced increased microsomal enzyme activity. Whereas beta-carotene and uric acid were the most effective inhibitors, vitamin E was the least, yet a significant inhibitor of liver cancer. Hepatic levels of cytochrome P-450, aniline hydroxylase and chlorpromazine demethylase were significantly induced in rats fed fortified food followed by AFB1 treatment than in control animals. The inhibition of liver cancer by dietary factors was probably due to their ability to induce the activity of hepatic microsomal enzymes. Increased enzyme activity could lead to rapid activation of AFB1 metabolism, resulting in loss of activated AFB1 metabolites that attack cell components. Inhibition of liver cancer is therefore associated with induction of increased microsomal enzyme activity.
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PMID:Inhibition of AFB1-induced liver cancer and induction of increased microsomal enzyme activity by dietary constituents. 261 10

N-5-dimethyl-9-[(2-methoxy-4-methylsulphonyl-amino)phenylamino]-4- acridinecarboxamide (CI-921) is an amsacrine analogue currently undergoing phase II clinical trials as an antitumor drug. Significant alterations in the plasma clearance (CL) of amsacrine have been demonstrated in rabbits after pretreatment with cimetidine (CT), phenobarbitone (PB) and buthionine sulphoximine (BSO). In the present study, the influence of these agents on the disposition of CI-921 was investigated in rabbits. After a short infusion of CI-921 (12.7 mumol/kg), blood (8 x 3 ml) was collected up to 12 h and the total plasma concentration of CI-921 determined by HPLC. Model-independent pharmacokinetic parameters were compared by Student's paired t-test. CT pretreatment significantly (P = 0.011) increased the AUC (mean, 21%; range, 3%-43%) and significantly (P = 0.019) decreased the CL (mean, 17%; range, 4%-30%). The induction effect of PB pretreatment was not confirmed with CI-921. No significant reduction in AUC or increase in CL was apparent. BSO pretreatment caused a small but significant (P = 0.049) increase in AUC (mean, 20.5%; range, 4%-59%) but had no effect on CL. Although more modest changes in kinetic parameters were observed with CI-921 than with amsacrine, these results suggested the involvement of the hepatic mixed-function oxidase system but not PB-inducible cytochrome P-450 isozymes in the elimination of CI-921 in the rabbit. As with amsacrine, a reduction in hepatic glutathione (GSH) concentrations in the body also appeared to have a modest effect on the disposition of CI-921.
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PMID:The effect of cimetidine, phenobarbitone and buthionine sulphoximine on the disposition of N-5-dimethyl-9-[(2-methoxy-4-methyl-sulphonylamino)phenylamino]- 4-acridinecarboxamide (CI-921) in the rabbit. 270 33

The metabolism of chemical carcinogens was investigated in liver preparations from 28 captive woodchucks (Marmota monax). Of these, 23 were naturally infected with the woodchuck hepatitis virus (WHV), and eight also had primary hepatocellular carcinoma (PHC). Twenty-nine parameters were investigated in liver subcellular fractions, including cross-reactivity with HBsAg, and biochemical parameters, such as gamma-glutamyl transpeptidase, cytochrome P-450 and microsomal monooxygenases (aryl hydrocarbon hydroxylase, ethoxycoumarin and ethoxyresorufin deethylases, aminopyrine and dimethylnitrosamine demethylases, and testosterone 7 alpha-, 16 alpha- and 6 beta-hydroxylases), uridine 5'-diphosphoglucuronosyl transferase, GSH and related enzymes (peroxidase, reductase and S-transferase), as well as other cytosolic enzyme activities (glucose 6-phosphate and 6-phosphogluconate dehydrogenases, NADPH- and NADH-dependent diaphorases, and DT diaphorase). In addition, liver preparations were used in order to quantify the metabolic activation into bacterial mutagens of five procarcinogens (aflatoxin B1, the pyrolysis products Trp-P-2 and MeIQ, 2-aminofluorene and dimethylnitrosamine) and the decrease of potency of three direct-acting mutagens (sodium dichromate, ICR 191 and 4-nitroquinoline 1-oxide). WHV infection produced a significant stimulation of carcinogen metabolism, as shown by the simultaneous change in detoxification parameters (GSH depletion) and activation indices (enhancement of microsomal monooxygenases and of procarcinogen activation into mutagenic metabolites). There were no significant differences between WHV-positive samples from animals without PHC and the noncancerous tissue of PHC-bearing animals, whereas a decrease of both activation and detoxification indices was recorded in the tumorous tissue. There was a considerable interindividual variability among WHV carriers, which was tentatively ascribed to genetic factors. Pregnancy was the only known factor influencing the results in WHV carriers. However, even by excluding pregnant animals, the effects on carcinogen metabolism produced by WHV infection were still statistically significant. These results, together with previous data obtained in humans, revealed that metabolic factors may play a role in the synergism between viral hepatitis and chemical hepatocarcinogens in the etiopathogenesis of PHC.
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PMID:Enhanced metabolic activation of chemical hepatocarcinogens in woodchucks infected with hepatitis B virus. 272 Sep 3

This study investigates the effects of 3 successive cisplatin administrations on rat kidney cytochrome P-450 and drug-metabolizing enzyme activities. Furthermore, because glutathione (GSH) and its related enzymatic system are involved in cellular detoxification processes, we examined the effects of cisplatin on lipid peroxidation, GSH levels, and GSH reductase and peroxidase activities. Cisplatin induced a decrease in cytochrome P-450, GSH, GSH S-transferase, GSH reductase and GSH peroxidase activities, and an increase in N-glucuronyl transferase, lipid peroxidation and oxidized glutathione (GSSG) in kidney cortical microsomes and cytosolic fractions. It is suggested that cisplatin nephrotoxicity could be explained by its affinity for SH-groups of several enzymes and SH-containing compounds. Among these, GSH and its related enzymatic system play a primary role. Moreover, cisplatin increases lipid peroxidation, which might participate in cisplatin nephrotoxicity.
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PMID:Cisplatin-induced changes in cytochrome P-450, lipid peroxidation and drug-metabolizing enzyme activities in rat kidney cortex. 277 25

1. Metabolism of 14C-trans-sobrerol (I) by Sprague-Dawley rat liver microsomes did not result in covalent binding to proteins, lipid peroxidation or cytochrome P-450 destruction. 2. Subacute and chronic treatment of Sprague-Dawley rats with (I) resulted only in an increase in liver cytosolic GSH-S-transferase. 3. Acute treatment of rats with trans-sobrerol or its metabolite, 8-hydroxycarvotanacetone (II) produced considerable GSH depletion, faster in the case of II, in both liver and lung; the original GSH levels were restored within 24 h. No significant increase in lipid peroxidation was found even when GSH was at its lowest level. 4. UDP-glucuronyltransferase and GSH-S-transferase conjugation occurred with trans-sobrerol and some of its metabolites although at low rates.
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PMID:Effects of trans-sobrerol on drug metabolizing enzymes in the rat. 281 25

Hemin (ferric protoporphyrin IX chloride) in the presence of hydrogen peroxide or tert-butyl hydroperoxide was found to cleave folic acid at the C9-N10 bond. The ferrous form of hemin was not involved in hydroperoxide-dependent folic acid degradation, as indicated by the lack of inhibition by carbon monoxide. Molecular oxygen was not required for the degradation. GSH-Mn(II) or NAD(P)H in the presence of molecular oxygen did not support hemin-mediated folic acid degradation. The degradation increased as the temperature was elevated from 10 to 70 degrees C. Ascorbic acid and azide were potent inhibitors. Superoxide dismutase and hydroxyl radical quenchers, such as ethanol, mannitol, benzoate, and dimethyl sulfoxide did not inhibit the reaction. Catalase inhibited hydrogen peroxide-supported degradation but not the tert-butyl hydroperoxide-dependent one. Thiol compounds, such as thioglycolic acid, thiourea, glutathione, cysteine, and 2-mercaptoethanol, inhibited the hydrogen peroxide-dependent degradation but supported the tert-butyl hydroperoxide-mediated one. N5-formyl tetrahydrofolic acid, but not N10-formyl folic acid, was degraded by hemin in the presence of H2O2 or TBHP. The data obtained are suggestive of a mechanism similar to N-demethylation reactions catalyzed by cytochrome P-450 and some peroxidases.
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PMID:Studies on hydroperoxide-dependent folic acid degradation by hemin. 282 Mar 6

By the use of spin trapping agents phenyl-t-butyl nitrone (PBN) and 4-pyridyl-1-oxide-t-butyl nitrone (4-POBN) free radical species were detected in isolated hepatocytes incubated with either isoniazid, iproniazid and their respective metabolites acetyl-hydrazine and isopropyl-hydrazine. The addition of bis-nitrophenyl phosphate, an inhibitor of the acylamidase enzymes, to isolated hepatocytes decreased the free radical activation of isoniazid and iproniazid, but not that of acetyl- and isopropyl-hydrazine, confirming that the radical species were originating from the biotransformation of these latter compounds. The ESR spectra were ascribed to the trapping of, respectively, acetyl and isopropyl free radicals on the basis of the analogies of the spectral feature with those of chemically-prepared spin adducts. Comparable ESR spectra were also observed during the metabolism of acetyl- and isopropyl-hydrazines by liver microsomes and their formation was inhibited by the omission of NADP+, anaerobic incubation and enzyme denaturation. In the microsomal preparations inhibitors of the mixed function oxidase system decreased to various extents the free radical formation and a similar effect was also observed following the destruction of cytochrome P-450 induced by pretreating the rats with CoCl2. The addition of reduced glutathione also decreased the radical trapping indicating that GSH can effectively compete with the spin traps for the reaction with the free radicals. The incubation of isolated hepatocytes with isoniazid or acetyl-hydrazine reduced by 20-25% the intracellular GSH content, while a 50% decrease in GSH was present in the cells exposed to iproniazid and isopropyl-hydrazine. In the same hepatocyte preparations stimulation of lipid peroxidation and leakage of LDH were also observed during cell incubation with iproniazid and isopropyl-hydrazine, but not with isoniazid or acetyl-hydrazine and the extent of both phenomena correlated with the susceptibility of the above compounds to the free radical activation.
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PMID:Spin trapping of free radical intermediates produced during the metabolism of isoniazid and iproniazid in isolated hepatocytes. 282 Apr 25

Liver microsomes incubated with a NADPH regenerating system, ethanol and the spin trapping agent 4-pyridyl-1-oxide-t-butyl nitrone (4-POBN) produced an electron spin resonance (ESR) signal which has been assigned to the hydroxyethyl free radical adduct of 4-POBN by using 13C-labelled ethanol. The free radical formation was dependent upon the activity of the microsomal monoxygenase system and increased following chronic feeding of the rats with ethanol. The production of hydroxyethyl free radicals was stimulated by the addition of azide, while catalase and OH. scavengers decreased it. This suggested that hydroxyl radicals (OH.) produced in a Fenton-type reaction from endogenously formed hydrogen peroxide were involved in the free radical activation of ethanol. Consistently, the supplementation of iron, under various forms, also increased the intensity of the ESR signal which, on the contrary, was inhibited by the iron-chelating agent desferrioxamine. Microsomes washed with a solution containing desferrioxamine and incubated in a medium treated with Chelex X-100 in order to remove contaminating iron still produced hydroxyethyl radicals, although at a reduced rate. Under these conditions the free radical formation was apparently independent from the generation of OH. radicals, whereas addition of cytochrome P-450 inhibitors decreased the hydroxyethyl radical formation, suggesting that a cytochrome P-450-mediated process might also be involved in the activation of ethanol. Reduced glutathione (GSH) was found to effectively scavenge the hydroxyethyl radical, preventing its trapping by 4-POBN. The data presented suggest that ethanol-derived radicals could be generated during the microsomal metabolism of alcohol probably through two different pathways. The detection of ethanol free radicals might be relevant in understanding the pathogenesis of the liver lesions which are a consequence of alcohol abuse.
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PMID:Spin trapping of free radical species produced during the microsomal metabolism of ethanol. 283 34

The mechanism of the azo reduction of sulfonazo III and amaranth by the rat hepatic monooxygenase system was studied. Air strongly inhibited (greater than 95%) the enzymatic reduction of both azo compounds; a 100% CO atmosphere inhibited amaranth reduction (greater than 90%) but only slightly inhibited sulfonazo III reduction (13%). The addition of 50 microM sulfonazo III to microsomal incubations stimulated oxygen consumption, NADPH oxidation, and adrenochrome formation, whereas 100 microM amaranth did not. The reduction potentials of these two azo compounds were also very different (amaranth, E = -0.620 V; sulfonazo III, E = -0.265 V versus normal hydrogen electrode). The organic mercurial mersalyl converted cytochrome P-450 to cytochrome P-420 (68%) and markedly decreased NADPH-cytochrome P-450(c) reductase activity (97%) in microsomal preparations, presumably by inactivating or destroying functional sulfhydryl groups important for the catalytic activity of these enzymes. GSH was used to restore, and NADP+ to protect, the activities of the monooxygenase components from the effects of mersalyl. The data indicate that inactivation of NADPH-cytochrome P-450(c) reductase inhibits sulfonazo III and amaranth reduction, whereas inactivation of cytochrome P-450 inhibits only amaranth reduction. Furthermore, the reduction of sulfonazo III by purified microsomal NADPH-cytochrome P-450(c) reductase was significantly faster than the rate of reduction of amaranth. These studies demonstrate that two distinct sites of azo reduction exist in the monooxygenase system and that not all azo compounds are reduced by cytochrome P-450.
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PMID:Two sites of azo reduction in the monooxygenase system. 284 54


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