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

The characterization of the enzymatic step(s) involved in the reduction of 3'-azido-3'-deoxythymidine (zidovudine)(ZDV) to 3'-amino-3'-deoxythymidine (AMT) was pursued. AMT formation by human liver microsomes was NADPH dependent, enhanced under anaerobic conditions, and increased by flavin adenine dinucleotide (FAD) and FMN. Carbon monoxide inhibited AMT formation by up to 80%. The effect of theophylline (CYP1A substrate), tolbutamide (CYP2C substrate), chlorzoxazone, thiobenzamide, p-nitrophenol, mercaptoethanol, isoniazid (CYP2E substrates), cortisol (CYP3A substrate), ketoconazole, itraconazole, fluconazole, cimetidine, micronazole (CYP inhibitors), methimazole (flavin-containing mono-oxygenase inhibitor), chloramphenicol (undergoes nitroreduction), allopurinol (xanthine oxidase inhibitor) and dicoumarol (DT-diaphorase inhibitor) on AMT formation were studied to see if the reduction reaction was mediated by a particular isozyme. The greatest inhibition was observed with ketoconazole (concentration producing 50% inhibition = 78.0 microM). At this concentration ketoconazole acted as a non-selective inhibitor of several CYP isozymes. Overall, these data suggested that ZDV reduction was probably mediated by both cytochrome P450 isozymes and NADPH-cytochrome P450 reductase. Formation of AMT, as measured by intrinsic clearance (Clint), was significantly increased in microsomes from rats pre-treated with phenobarbitone, dexamethasone and clofibrate (inducers of CYP2B, CYP3A and CYP4A, respectively). Pre-treatment of rats with beta-naphthoflavone and ethanol (CYP1A and CYP2E1 inducers, respectively) had no effect on AMT formation.
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PMID:The metabolism of zidovudine by human liver microsomes in vitro: formation of 3'-amino-3'-deoxythymidine. 805 24

Rats were exposed to three levels of bromobenzene, sampled at 6, 24, and 48 h, and liver gene expression profiles were determined to identify dose and time-related changes. Expression of many genes changed transiently, and dependent on the dose. Few changes were identified after 6 h, but many genes were differentially expressed after 24 h, while after 48 h, only the high dose elicited large effects. Differentially expressed genes were involved in drug metabolism (upregulated GSTs, mEH, NQO1, Mrps, downregulated CYPs, sulfotransferases), oxidative stress (induced HO-1, peroxiredoxin, ferritin), GSH depletion (induced GCS-l, GSTA, GSTM) the acute phase response, and in processes like cholesterol, fatty acid and protein metabolism, and intracellular signaling. Trancriptional regulation via the electrophile and sterol response elements seemed to mediate part of the response to bromobenzene. Recovery of the liver was suggested in response to BB by the altered expression of genes involved in protein synthesis and cytoskeleton rearrangement. Furthermore, after 48 h, rats in the mid dose group showed no toxicity, and gene expression patterns resembled the normal situation. For certain genes (e.g., CYP4A, metallothioneins), intraday variation in expression levels was found, regardless of the treatment. Selected cDNA microarray measurements were confirmed using the specific and sensitive branched DNA signal amplification assay.
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PMID:Bromobenzene-induced hepatotoxicity at the transcriptome level. 1505

Herein we have characterized CYPs and antioxidant enzymes in a new steatotic rat model induced with a high fat diet (HFD) combined with a low dose of streptozotocin (STZ). This model was recently put forward in order to better replicate the NAFLD human pathology. HFD/STZ rats developed hyperglycemia, hypercholesterolemia and overt steatosis. The treatment also caused liver damage, but not lipid peroxidation, suggesting this damage was due to hepatic fat deposition and excess formation of toxic free fatty acids, rather than to oxidative stress. In the HFD/STZ group, a significant rise in total CYP content was found, in conjunction with increased activity and protein levels of CYP2E1 and CYP4A, the latter also up-regulated at the transcriptional level. A significant decrease of CYP2C11 was observed at the transcriptional and protein level, whereas CYP3A2 did not change in response to HFD/STZ treatment. In our experimental conditions, the activity of the HO-1 and NQO1 enzymes, whose genes are regulated by Nrf2, were not affected, and nor were the antioxidant enzymes SOD and CAT, confirming the lack of oxidative stress. Our HFD/STZ treatment, which established overt steatosis and changes in CYPs expression, but not oxidative stress, likely reflects an early stage of NAFLD.
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PMID:Drug metabolism enzymes in a steatotic model of rat treated with a high fat diet and a low dose of streptozotocin. 2481 20