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: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Idiopathic Parkinson's disease has been postulated to result from exposure to environmental toxins similar to the parkinsonism-causing neurotoxin MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine). This study examines the interactions of MPTP with the cytochrome P-450 system--an enzyme system which is known to be involved in the detoxication of MPTP. In vitro studies, using control hepatic microsomes, studied changes in cytochrome P-450 content and enzyme activity with varying concentrations of MPTP and substrates. In vivo liver and brain studies were conducted using groups of 4 animals treated intraperitoneally with varying doses of MPTP and sacrificed at varying time intervals after treatment. Changes in cytochrome P-450 enzyme contents and activities were determined using standard analytical procedures. MPTP was found from in vitro studies to cause a mixed non-competitive inhibition of cytochrome P-450 dependent ethoxyresorufin O-dealkylase activity with an inhibition constant (Ki) of 0.06 mM. Two binding sites of MPTP to hepatic cytochrome P-450 were found by spectral perturbation studies--the higher affinity site binding about a hundred times more avidly to MPTP than the other. In vivo studies showed a depression of cytochrome P-450 content and activity in a dose-dependent manner. Cytochrome P-450 levels were lowest 3 to 6 hours after treatment with MPTP. MPTP was also found to cause a dose-dependent decrease in the cytochrome P-450 enzyme activities bufuralol hydroxylase (buf) and aryl hydrocarbon hydroxylase (AHH) in the brain. Bufuralol hydroxylase activity was found to be about 2000 times more sensitive than aryl hydrocarbon hydroxylase to the effects of MPTP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Studies on the interactions of MPTP(1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine) with the cytochrome P-450 enzyme system--clues to a possible aetiological factor in Parkinson's disease. 278 64

The effects of the neurotoxic compound, 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) on the hepatic cytochrome P-450 monooxygenase system were assessed using C57 BL/6J mice. Treatment with MPTP caused a marked depression of hepatic cytochrome P-450 content, ethoxyresorufin O-dealkylase and NADPH cytochrome C reductase activities. This effect was maximal 3 to 6 hours after treatment and was dependent on the dose of MPTP administered. Depression of spectrophotometrically measured cytochrome P-450 content was associated with increase in cytochrome P-420 content and lipid peroxidation. In vitro studies showed the formation of a metabolic-intermediate complex with cytochrome P-450 which may partially explain the depression of cytochrome P-450 content and activity by MPTP.
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PMID:Depression of the hepatic cytochrome P-450 monooxygenase system by the neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). 278 11

Treatment of mice with endotoxin (lipopolysaccharide, LPS) and the two LPS-induced monokines, tumor necrosis factor (TNF) and interleukin-1 (IL-1), caused a depression of liver cytochrome P-450 and related drug-metabolizing enzymes, as well as other acute-phase changes including increase in plasma fibrinogen levels and hypoferremia. However, only IL-1, not TNF or LPS, depressed cytochrome P-450 in cultured hepatocytes, suggesting that the effect of TNF in vivo might be mediated by a second mediator. TNF- or LPS-stimulated monocytes released a factor capable of depressing cytochrome P-450 in cultured hepatocytes. This factor was inhibited by anti-IL-1 antiserum, and its synthesis, like that of IL-1, was inhibited by dexamethasone (DEX). Pretreatment of mice with DEX protected against the depression of liver cytochrome P-450 by LPS or TNF but not by IL-1, suggesting that IL-1 directly depresses cytochrome P-450 and that DEX acts by inhibiting IL-1 synthesis in vivo induced by LPS or TNF. However, DEX did not inhibit two other effects of LPS and TNF in vivo: increase of plasma fibrinogen levels and decrease of plasma iron, suggesting that these might not be mediated by IL-1. Therefore, the effect of DEX in vivo, although supporting the hypothesis that depression of liver cytochrome P-450 by LPS and TNF is mediated by IL-1, indicates the existence of IL-1-independent pathways in the acute-phase response.
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PMID:Dexamethasone modulation of in vivo effects of endotoxin, tumor necrosis factor, and interleukin-1 on liver cytochrome P-450, plasma fibrinogen, and serum iron. 278 6

The most widely used H2-receptor antagonist, cimetidine, is known to interact with cytochrome P-450 drug-metabolizing enzymes and, therefore, interacts with other drugs which may be administered concurrently. In this study, effects of three H2-receptor antagonists, famotidine, ranitidine, and L-643,441, on drug interaction were studied using cimetidine as a positive control. Cimetidine and L-643,441, but not famotidine or ranitidine, prolonged antipyrine elimination and hexobarbital-induced sleeping time. The effect of cimetidine and famotidine on the anticoagulant effect on warfarin in rats was also investigated. Pretreatment of rats with cimetidine produced a significant depression of plasma prothrombin complex activity, whereas concomitant administration of famotidine did not alter the plasma prothrombin complex activity. Whereas cimetidine is known to impair the elimination of a number of drugs metabolized by microsomal mixed function oxidase enzyme systems, the results of the present study suggest that famotidine and ranitidine have little effect on these enzyme systems.
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PMID:Comparative effects of H2-receptor antagonists on drug interaction in rats. 287 21

A previously validated small mammal trauma model, hindlimb ischemia secondary to infrarenal aortic ligation in the rat, was utilized to investigate the effects of traumatic injury on two of the major hepatic enzymes of detoxification, glutathione S-transferase and epoxide hydrolase. Hepatic cytosolic glutathione S-transferase activity toward a variety of substrates showed a 26-34% decrease at 24 hr after model injury. Hepatic microsomal epoxide hydrolase activity toward 1,2-epoxy-3-(p-nitrophenoxy)propane was diminished by 53% after model trauma. Both enzymatic activities toward styrene oxide were similarly depressed. The toxicological sequelae of these derangements were illustrated by administering a dose of styrene oxide (300 mg/kg, ip) which was below the threshold dose (350 mg/kg, ip) necessary to produce hepatotoxicity in control animals. Model trauma dramatically enhanced the hepatotoxic effects of the subthreshold dose, as well as the covalent binding of labeled styrene oxide to liver proteins. These findings indicate that traumatic injury renders the animal more susceptible to agents which are detoxified by glutathione S-transferase and epoxide hydrolase. Conversely, model trauma provided almost complete protection from the hepatotoxic effects of a standard dose (200 mg/kg, ip) of bromobenzene. This protection appeared to derive from a post-traumatic alteration of cytochrome P-450 subpopulations that decreased the formation of the potentially toxic 3,4-epoxide metabolite, despite an increase in the cytochrome P-448-mediated generation of the nontoxic 2,3-epoxide. For bromobenzene, the change in cytochrome P-450-mediated activation appeared quantitatively more significant in overall toxicity than the post-traumatic depression of detoxification pathways described above, leading to decreased toxicity in vivo. For other compounds, the combination of post-traumatic influences on cytochrome P-450/P-448 activity and epoxide hydrolase/glutathione S-transferase activities could lead to markedly enhanced toxicity.
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PMID:Effects of model traumatic injury on hepatic drug metabolism in the rat. VI. Major detoxification/toxification pathways. 289 98

The H2-receptor antagonists cimetidine, ranitidine, and famotidine are well tolerated, with a low frequency and similar spectrum of adverse effects. The occasional problematic effects that have been associated with these agents include central nervous system symptoms (mental confusion, headache, and depression), rare cases of thrombocytopenia, and cardiovascular events related to the rate of intravenous infusion. Severe renal and hepatic impairment appear to be associated with a higher occurrence of central nervous system effects. Because the H2-receptor antagonists elevate gastric pH, bind to and inhibit the hepatic cytochrome P-450 enzyme system, and undergo renal tubular secretion, competition with other drugs sharing these pathways has resulted in a number of drug interactions, most of which are not clinically significant. The interaction that occurs with theophylline and warfarin when the cytochrome P-450 enzyme system is inhibited by cimetidine and ranitidine requires monitoring. Recent data suggest that administering cimetidine 800 mg at bedtime has less effect on the serum concentrations of warfarin and theophylline than other dosing regimens. Evidence to date indicates that famotidine does not bind to cytochrome P-450 to a significant extent, and interactions with drugs metabolized by this system have not been reported; however, clinical experience with this agent is very limited.
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PMID:Clinically important adverse effects and drug interactions with H2-receptor antagonists: an update. 289 55

A novel analogue of human alpha-interferon (IFN-alpha CON1) was tested for its ability to modify the hepatic cytochrome P-450-dependent mixed-function oxidase system in the hamster. This cloned interferon was derived by selecting the most frequently observed amino acid sequences at each position in the known human alpha-interferon subtypes. IFN-alpha CON1 had a biphasic effect on cytochrome P-450 and related drug biotransformation in the hamster causing an initial increase followed by a significant depression. IFN-alpha CON1 also had a biphasic effect on cytochrome P-450 in the lung, adrenal and spleen but only a depressant effect in the kidney. This effect was not due to morphological damage and followed the species specificity for this type of interferon. Both the increase and the decrease in cytochrome P-450 could be prevented by the administration of the protein synthesis inhibitor puromycin. Various isozymes of cytochrome P-450 induced by phenobarbital, beta-napthaflavone and clofibrate were also depressed by this interferon. The results presented in this report suggest that IFN-alpha CON1 interferon will likely depress drug biotransformation in humans because the antiviral effects and the "anti-cytochrome P-450" effect of interferons cannot be separated, and this interferon has antiviral properties in both hamster and human cells. Clinically relevant drug interactions may be common during the concomitant use of this interferon and other drugs that are metabolized by cytochrome P-450.
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PMID:Induction and depression of cytochrome P-450-dependent mixed-function oxidase by a cloned consensus alpha-interferon (IFN-alpha CON1) in the hamster. 291 6

Previous studies in this laboratory have shown 2,2-dimethyl-5-t-butyl-1,3-benzodioxole (DBBD) to antagonize 3-methylcholanthrene induction of cytochrome P-450 in Dub:ICR mice yet have no effect on phenobarbital induction. In the present experiments, C57BL/6 mice, an Ah responsive strain, produced a similar response under the same experimental conditions. The hypothesis that DBBD, although not a cytochrome P-450 inducer, competes with 3-methylcholanthrene for binding to the Ah receptor was tested. Using sucrose density gradients, the Ah receptor was measured in hepatic cytosol from Dub:ICR and C57BL/6 male mice. DBBD was unable to displace either 2,3,7,8-tetra-chlorodibenzo-p-dioxin or 3-methylcholanthrene from the Ah receptor, in vitro. However, in in vivo experiments, DBBD treatment of Dub:ICR mice caused Ah receptor depression at 6 and 24 hr with complete recovery in between, while 3-methylcholanthrene treatment caused a 2-fold Ah receptor reduction at 2 hr followed by complete recovery after 12 hr. When 3-methylcholanthrene and DBBD were coadministered, the depression of the Ah receptor was additive. DBBD-pretreated mice had a 2.25-fold reduction in Ah receptor level, effectively blocking the ability of 3-methylcholanthrene to increase the cytochrome P-450 content and either benzo[a]pyrene hydroxylase or ethoxyresorufin O-deethylase activities. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis confirmed that 3-methylcholanthrene induction of cytochrome P-450 was inhibited by DBBD pretreatment. Hence, although DBBD does not displace 3-methylcholanthrene from the Ah receptor in vitro, it does antagonize 3-methylcholanthrene induction of cytochrome P-450 and also reduces the amount of available receptor in vivo. This interaction may be due either to antagonism or to downregulation of the Ah receptor.
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PMID:Cytochrome P-450 induction by 3-methylcholanthrene and its antagonism by 2,2-dimethyl-5-t-butyl-1,3-benzodioxole. 300 84

Induction of xanthine oxidase in mouse liver by interferon (IFN) was studied with three different recombinant human leukocyte IFN molecules: IFLrA, IFLrD and the hybrid IFLrA/D(Bgl II). The ability of different IFN species to induce xanthine oxidase correlated with their ability to depress liver cytochrome P-450-dependent drug metabolism, supporting the hypothesis that reactive oxygen metabolites generated by xanthine oxidase might be responsible for this impairment of liver function by IFN. The antioxidant N-acetylcysteine protected in vivo against the depression of liver drug metabolism by IFLrA/D. IFLrA/D was also found to induce liver microsomal heme oxygenase, an effect that was probably secondary to the observed depression of cytochrome P-450.
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PMID:Induction of xanthine oxidase and heme oxygenase and depression of liver drug metabolism by interferon: a study with different recombinant interferons. 301 3

Although butylated hydroxytoluene (BHT) is non-mutagenic, at high doses it has recently been associated with an increased incidence of liver tumours in laboratory rodents. To establish whether chronic liver cell injury may be involved in the genesis of these tumours, BHT was administered to rats by orogastric gavage at doses of 0, 25, 250 or 500 mg/kg/day for up to 28 days and also at daily doses of 1000 and 1250 mg BHT/kg for up to 4 days (sublethal doses). The sublethal doses induced centrilobular necrosis within 48 hr, whereas administration of BHT for 7 or 28 days caused dose-related hepatomegaly and at the highest dose level induced progressive periportal hepatocyte necrosis. The periportal lesions were associated with proliferation of bile ducts, persistent fibrous and inflammatory cell reactions, hepatocyte hyperplasia and hepatocellular and nuclear hypertrophy. Biochemical changes consisted of dose-related induction of epoxide hydrolase, dose-related changes in the ratio of cytochrome P-450 isoenzymes and depression of glucose-6-phosphatase. Measurement of BHT demonstrated a dose-related accumulation in fat but not in the liver. Changes in hepatic activating and detoxifying enzyme profiles are implicated both in the mechanism of periportal hepatocyte damage and in the change of site of damage according to the dose and duration of the treatment. The persistent and active nature of the lesions in rats dosed with 500 mg BHT/kg for 28 days, combined with evidence of cell damage at doses equivalent to those associated with hepatic tumours (250 mg BHT/kg), suggests that chronic liver cell damage may be involved in their aetiology. In this and several other studies, there was no evidence that BHT causes liver damage at a dose level of 25 mg/kg/day. As this is several hundred times higher than the normal human intake, it is considered unlikely that BHT poses a threat to human health.
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PMID:Hepatic responses to the administration of high doses of BHT to the rat: their relevance to hepatocarcinogenicity. 302 37


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