Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.31 (beta-glucuronidase)
 7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dihydrodiol dehydrogenase (DD; EC 1.3.1.20) purified to homogeneity from rat liver cytosol will catalyze the NAD(P)(+)-dependent oxidation of (+/-)-trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene (B[a]P-diol) to yield benzo[a]pyrene-7,8-dione (BPQ). To verify that BPQ is a metabolite of B[a]P-diol in rat liver, an S100 fraction was supplemented with NAD+ and NADP+, and the formation of BPQ was followed by reverse-phase HPLC. The identity of BPQ was established by co-chromatography with an authentic standard (under different solvent conditions) and by RP-HPLC using a diode-array detector which established that the metabolite shared spectral identity with BPQ. The formation of BPQ in the S100 fraction was blocked by either a competitive inhibitor (indomethacin) or a suicide substrate [1-(4-nitrophenyl)-propen-1-ol] for DD, indicating that BPQ was being formed by this enzyme. To assess the contribution of DD to the metabolism of [3H]B[a]P-diol, subcellular fractions obtained from uninduced rat liver were fortified with co-factors to optimize the activity of enzymes that would compete for this proximate carcinogen. Under these conditions, S100 fractions fortified with NAD+ and NADP+ metabolized 25% of the B[a]P-diol, producing 731 +/- 154 pmol of BPQ. In contrast, rat liver microsomes fortified with an NADPH generating system metabolize 75% of the B[a]P-diol producing 2614 +/- 379 pmoles of benzo[a]pyrene-tetrahydrotetrols. Rat liver homogenates (S10) fortified with either uridine diphosphoglucuronic acid or phosphoadenosine phosphosulfate produced 180 +/- 56 and 95 +/- 31 pmoles of conjugates respectively, which were recovered as B[a]P-diol after treatment of the aqueous phase with either beta-glucuronidase or aryl sulfatase. Of the metabolites analyzed BPQ was formed in the second largest amount. These studies show that in uninduced rat liver DD may play a significant role in the metabolism of B[a]P-diol. The metabolic fate of BPQ remains to be determined.
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PMID:Contribution of dihydrodiol dehydrogenase to the metabolism of (+/-)-trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene in fortified rat liver subcellular fractions. 139 42

The antiprotozoal drug pentamidine [1,5-bis(4'-amidinophenoxy)pentane] has been previously shown to be metabolized by rat liver microsomes, and five of the seven putative primary metabolites have been identified. With the synthesis and identification of 5-(4'-amidinophenoxy)pentanoic acid and 5-(4'-amidinophenoxy)-1-pentanol as the remaining two metabolites, the primary metabolism of pentamidine in rats appears fully characterized. Use of [14C]pentamidine with rat liver microsomes confirms this conclusion, since no unidentified radioactive peaks were detected by high-performance liquid chromatography (HPLC). Isolated, perfused rat livers were used with [14C]pentamidine to identify secondary metabolites. Only two novel radioactive peaks were detected by HPLC analysis of perfused liver samples. The treatment of liver samples with sulfatase or beta-glucuronidase resulted in the reduction or elimination of these peaks and gave rise to peaks identified as para-hydroxybenzamidine and 5-(4'-amidinophenoxy)pentanoic acid. It was concluded from these results that only these two primary metabolites were conjugated with sulfate or glucuronic acid. After 4 h of incubation in the perfused liver system, approximately 15% of the recovered radiolabel was pentamidine. These results suggest that pentamidine metabolism can be rapid and extensive in rats.
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PMID:Primary and secondary metabolism of pentamidine by rats. 141 74

Since human colorectal tumors are insensitive to most chemotherapeutic agents, there is a need for the discovery of new drugs that would show activity against this disease. In an attempt to better appreciate the relevance of a widely used mouse colon tumor (colon adenocarcinoma Co38) as a screening model for human colorectal tumors, we compared the main phase I and phase II drug-metabolizing enzyme systems in both tumoral and nontumoral colon tissues. The following enzymes were assayed by Western blot: cytochromes P-450 (1A1/A2, 2B1/B2, 2C, 2E1, and 3A), epoxide hydrolase, and glutathione-S-transferases (GST-alpha, -mu, and -pi). The activities of the following enzymes or cofactors were determined by spectrophotometric or fluorometric assays: total cytochrome P-450, 1-chloro-2,4-dinitrobenzene-GST, selenium-independent glutathione peroxidase, 3,4-dichloronitrobenzene-GST, ethacrynic acid-GST, total glutathione, epoxide hydrolase, UDP-glucuronosyltransferase, beta-glucuronidase, sulfotransferase, and sulfatase. Results obtained by Western blot showed that mouse colon adenocarcinoma Co38 did not express any of the probed cytochromes P-450, whereas human colorectal tumors expressed only low levels of cytochrome P-450 3A. GST-alpha and GST-pi were detected in all tumoral and nontumoral tissues of both species. The neutral GST-mu was expressed in all murine tissues investigated and was found to be polymorphic in human tissues. For human peritumoral and tumoral colorectal tissues there was no significant difference between GST isoenzyme levels, whereas mouse colon adenocarcinoma Co38 had a lower expression of GST-mu and GST-pi, compared to normal mouse colon. Enzymatic activities for glutathione peroxidase, 3,4-dichloronitrobenzene-GST, and ethacrynic acid-GST confirmed the Western blot results for GST-alpha, GST-mu, and GST-pi, respectively. Total GSH levels were similar between murine and human tumors but were 3-fold higher in human tumors than in peritumoral tissues, whereas they were 7-fold lower in mouse colon tumor Co38, compared to normal mouse colon. Epoxide hydrolase was not expressed in either mouse colon adenocarcinoma Co38 or normal mouse colon tissues, whereas it was expressed in human colon peritumoral and tumoral tissues at similar levels. No significant difference was observed between human tumors and peritumoral tissues for UDP-glucuronosyltransferase, beta-glucuronidase, sulfotransferase, and sulfatase. For murine colon tissues, the conjugation pathways (UDP-glucuronosyltransferase and sulfotransferase) were lower in colon adenocarcinoma Co38, whereas the converse was observed for the corresponding hydrolytic enzymes (beta-glucuronidase and sulfatase).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Comparison of mouse and human colon tumors with regard to phase I and phase II drug-metabolizing enzyme systems. 142 2

Previously, we isolated two mutants of Bacteroides thetaiotaomicron that were unable to grow on the mucopolysaccharide chondroitin sulfate (CS). One of these mutants (46-1) was outcompeted by the wild type in the intestinal tracts of germfree mice, whereas the other mutant (46-4) competed equally with the wild type. In the present article, we report a detailed characterization of these two mutants. Assays of enzymes in the CS utilization pathway revealed that 46-1 did not express one of these enzymes, chondro-6-sulfatase. The absence of chondro-6-sulfatase activity in extracts from 46-1 allowed us to detect a previously unknown activity of another enzyme in the CS breakdown pathway, beta-glucuronidase. In addition to hydrolyzing its normal substrate (an unsulfated disaccharide), beta-glucuronidase also hydrolyzed the 6-sulfated disaccharide subunit of CS. Two-dimensional gel analysis of polypeptides produced by 46-1 showed that several proteins other than the 6-sulfatase were either missing or expressed aberrantly. Thus, 46-1 could be a regulatory mutant. Mutant 46-4 was unable to grow on CS, hyaluronic acid, or disaccharides of CS. Thus, expression of the CS pathway enzymes could not be induced. Nonetheless, the growth pattern of 46-4 and some other findings indicate that the structural genes for these enzymes were still intact. The most likely target of mutant 46-4 is a regulatory locus that is required for expression of CS utilization genes. A surprising characteristic of 46-1 was its inability to grow on heparin, a mucopolysaccharide which is structurally similar to CS but is utilized by a different pathway.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Analysis of two chondroitin sulfate utilization mutants of Bacteroides thetaiotaomicron that differ in their abilities to compete with the wild type in the gastrointestinal tracts of germfree mice. 157 88

After ip administration of 3-tert-butyl-4-hydroxyanisole (3-BHA) to rats, two previously undocumented metabolites 2-tert-butyl-5-methylthiohydroquinone (TBHQ-5-SMe) and 2-tert-butyl-6-methylthiohydroquinone (TBHQ-6-SMe) were identified in the urine by comparison with the authentic samples by GC/MS. In addition to these metabolites, 3-tert-butyl-4,5-dihydroxyanisole was also detected in the urine hydrolyzed by beta-glucuronidase/sulfatase. Administration of tert-butylhydroquinone (TBHQ), an O-demethylated metabolite of 3-BHA, also resulted in the formation of the S-containing metabolites, TBHQ-5-SMe and TBHQ-6-SMe. After incubation of TBHQ with rat liver microsomes in the presence of glutathione (GSH), two metabolites were isolated and purified by HPLC. The metabolites were identified as 2-tert-butyl-5-(glutathion-S-yl)hydroquinone and 2-tert-butyl-6-(glutathion-S-yl)hydroquinone by 1H- and 13C-NMR spectrometry and by fast atom bombardment-mass spectrometry. The formation of TBHQ-GSH conjugates required NADPH, molecular oxygen, and GSH. Cytochrome P-450 inhibitors such as SKF 525-A and metyrapone markedly inhibited the formation of TBHQ-GSH conjugates in vitro. These results suggest that TBHQ is converted by cytochrome P-450-mediated monooxygenases to a reactive metabolite, 2-tert-butyl-p-benzoquinone (TBQ), which then conjugates with GSH to form TBHQ-GSH conjugates. GSH S-transferase activities do not seem to play a role in GSH conjugation reaction to TBQ because cytosol fraction from rat liver homogenates did not enhance the microsome-mediated production of TBHQ-GSH conjugates.
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PMID:Identification and structure characterization of S-containing metabolites of 3-tert-butyl-4-hydroxyanisole in rat urine and liver microsomes. 168 7

We used adult rat hepatocytes in primary culture (HPC) as a model system to study the hepatic phase II metabolism of the anticoagulant warfarin. Hepatocytes were isolated by a collagenase perfusion technique and maintained for 24 hr in Waymouth's medium containing 0.1 mM (R)-warfarin. When HPC medium was analyzed by reverse phase high performance liquid chromatography with diode-array detection, 4'-, 6-, and 7-hydroxywarfarin were identified. Several putative conjugates were observed eluting between 13 and 18 min. Treatment of hepatocyte medium with beta-glucuronidase and sulfatase resulted in the loss of five putative conjugates and concomitant increases in 4'-, 6-, and 7-hydroxywarfarin and warfarin, suggesting that these metabolites and warfarin were conjugated. Use of the beta-glucuronidase inhibitor saccharic acid 1,4-lactone enabled the determination of the relative extents of conjugation of each metabolite by glucuronic acid and sulfate. Glucuronidation was the predominant pathway for 4'-hydroxywarfarin, whereas 6-hydroxywarfarin and warfarin occurred mainly as sulfate conjugates. In contrast, 7-hydroxywarfarin was converted to both glucuronide and sulfate conjugates. Exposure of HPC to phenobarbital resulted in a decrease in cytochrome P-450-mediated production of hydroxylated warfarin metabolites; however, an increase in the production of 8-hydroxywarfarin was observed when HPC were exposed to beta-naphthoflavone. Unique conjugation patterns were found when hydroxylated warfarins were substituted for warfarin in HPC medium. Both 7- and 8-hydroxywarfarin were converted to one sulfate and two glucuronide conjugates, whereas 4'-hydroxywarfarin was converted to a single glucuronide conjugate. A spectral library of these conjugates was used to identify the major conjugates of warfarin formed by rat HPC.
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PMID:Phase II metabolism of warfarin in primary culture of adult rat hepatocytes. 173 19

Glucuronidation and sulfation of 1-naphthol, 7-hydroxycoumarin, 4-nitrocatechol and phenolphthalein were studied in rabbit lung and liver. Pulmonary UDP-glucuronyltransferase and sulfotransferase activities in subcellular fractions were approximately 20-50% of those determined in the liver. Ethanol did not markedly induce these enzymes in either tissue. Glucuronidation and sulfation of 1-naphthol and 7-hydroxycoumarin were also studied in the isolated perfused rabbit lung as an intact cell model. Neither glucuronidation nor sulfation of 1-naphthol was observed. The absence of conjugate formation was due neither to the presence of beta-glucuronidase and/or sulfatase, nor to alternative biotransformation pathways. About 35% of the initial 7-hydroxycoumarin was conjugated, the majority being sulfate conjugate (14.4 nmol/h) with only minor amounts (0.12%) of the glucuronide. These results indicate the importance of studying both whole organ and in vitro metabolism.
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PMID:Glucuronidation and sulfation in subcellular fractions and in the isolated perfused rabbit lung: influence of ethanol. 190 11

The hepatic metabolism of 2-chlorodibenzofuran was investigated in the rat. When 2-chloro[14C]dibenzofuran was intravenously administered to bile duct-cannulated rats, about 90% of radioactivity was excreted in bile and urine within 6 hr, the bile being the preferential route. Another group of rats received oral administration of cold 2-chlorodibenzofuran and bile fluid was collected by surgical bile duct cannulation for qualitative analysis. Three hydroxylated metabolites were isolated by high performance liquid chromatography from the bile fluid after hydrolytic digestion with sulfatase and beta-glucuronidase and were identified by mass and nuclear magnetic resonance spectrometries to be 2-chloro-3,7-dihydroxydibenzofuran, 2-chloro-3-hydroxydibenzofuran and 2-chloro-7-hydroxydibenzofuran, respectively. Analyses of the radioactive bile fluid by thin layer chromatography revealed that there was no detectable amounts of unmetabolized 2-chlorodibenzofuran in the bile fluid and the hydroxylated metabolites were present not as aglycons but as conjugated substances. The results suggest that 2-chlorodibenzofuran is rapidly metabolized in the rat, and the 3 and/or 7 positions play an important role in the metabolism of 2-chlorodibenzofuran.
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PMID:Identification of metabolites of 2-chlorodibenzofuran in the rat. 199 13

A female child of healthy, unrelated parents presented at 12 months of age with a history of moderately severe developmental delay, macrocephaly, dysmorphic facies, hypotonia, hepatosplenomegaly, mild generalized dysostosis multiplex, mucopolysacchariduria (dermatan and heparan sulfates), and Alder-Reilly bodies in peripheral blood leukocytes. Iduronate sulfatase activity in plasma was markedly depressed: 0.11 units/ml/h (normal, 1.75 +/- 0.56, N = 6). Analyses of arylsulfatases A, B, and C, heparan N-sulfatase, alpha-mannosidase, beta-mannosidase, beta-glucuronidase, beta-hexosaminidase, beta-galactosidase, and alpha-fucosidase activities in plasma, leukocytes, and/or cultured skin fibroblasts were all normal. Urinary sulfatide excretion was also within normal limits. Karyotypes of peripheral blood leukocytes and cultured skin fibroblasts were normal. Serum iduronate sulfatase activities in the parents were in the normal range (father, 1.63 units/ml/h; mother, 1.25 units/ml/h). The results of analyses of restriction fragment length polymorphisms (RFLP) of DNA from cultured skin fibroblasts with the use of probes for loci extending from Xpter to Xq28 showed X chromosome heterozygosity and confirmed the paternal origin of one of the X chromosomes. Studies on sulfur-35 uptake in mixed fibroblast cultures showed cross-correction of [35S]-glycosaminoglycan accumulation between cells from the patient and normal cells or cells from a patient with Hurler disease; however, there was no cross-correction between cells from the patient and those from boys affected with classical Hunter disease. This represents only the second confirmed case of Hunter disease reported in a karyotypically normal girl.
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PMID:Hunter disease (mucopolysaccharidosis type II) in a karyotypically normal girl. 211 88

A sulfatase acting upon chondroitin sulfate polymers, free of beta-glucuronidase and beta-N-acetylhexosaminidases, was isolated from extracts of the mollusc Anomalocardia brasiliana. The enzyme totally desulfates both chondroitin 4- and 6-sulfates without concomitant depolymerization of the compounds. It has no activity upon heparan sulfate, heparin, dermatan sulfate, and chondroitin sulfate disaccharides. It shows a pH of 5.0 and a temperature of 37 degrees C for optimum activity with a Km of 4 x 10(-5) M. The sulfatase is inhibited by sulfate and phosphate ions and HgCl2. The latter inhibition is reverted by sodium tetrathionate. Contrary to the sulfatases described so far the enzyme is activated by the lactone of D-saccharic acid when in the presence of beta-glucuronidase and beta-N-acetylgalactosaminidase. Several experiments indicate that the sulfatase is the first enzyme in the sequential degradation of chondroitin sulfate in the mollusc. This differs from the pathway of degradation of this compound in vertebrates and bacteria.
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PMID:Sequential degradation of chondroitin sulfate in molluscs. Desulfation of chondroitin sulfate without prior depolymerization by a novel sulfatase from Anomalocardia brasiliana. 212 69


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