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: EC:3.2.1.31 (beta-glucuronidase)
7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of detergent, alamethicin (a channel-forming peptide), and the inducers phenobarbital and 3-methylcholanthrene on glucuronidation of all-trans-retinoic acid (atRA) and 5,6-epoxy-atRA have been investigated using liver microsomes from Sprague-Dawley and Fischer 344 rats. Conditions for enzymatic glucuronidation were optimized for substrate concentration, protein, and time by using atRA and Sprague-Dawley microsomes. With detergent-activated Sprague-Dawley microsomes, 5,6-epoxy-atRA was shown to be a significantly better substrate than atRA for microsomal glucuronidation (263 vs. 116 pmol/mg/min for 5,6-epoxy-atRA and atRA, respectively). The product of incubation of microsomes with atRA and UDP-glucuronic acid was identified as a glucuronide by beta-glucuronidase hydrolysis and by HPLC analysis. Alamethicin was shown to be a highly effective activator of glucuronidation activity; atRA and 5,6-epoxy-atRA glucuronidation rates were increased 2- and 3-fold, respectively, compared with detergent activation. Alamethicin (but not detergent) significantly increased retinoid glucuronidation by microsomes from Fischer 344 rats treated with phenobarbital and 3-methylcholanthrene, compared with untreated controls. The two compounds were equally effective inducers of activity, although 5,6-epoxy-atRA was again the better substrate. The same control and induced Fischer rat microsomes were photolabeled with [32P]5-azido-UDP-glucuronic acid in the absence or presence of detergent, two concentrations of alamethicin, and a 10-fold molar excess of unlabeled UDP-glucuronic acid. Photoincorporation into microsomal proteins from detergent-disrupted induced microsomes was 2-3 times greater than that of controls. Alamethicin increased photoincorporation of the probe into UDP-glucuronosyltransferase proteins an additional 1.5-2-fold in control and induced microsomes, compared with the respective detergent-activated samples.
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PMID:Glucuronidation of all-trans-retinoic acid and 5,6-epoxy-all-trans-retinoic acid. Activation of rat liver microsomal UDP-glucuronosyltransferase activity by alamethicin. 901 Jun 23

We report here that rats possess a hitherto unrecognized xenobiotic-inducible hepatic 7,8-dihydro-7,8-diol-benzo[a]pyrene (BPD) UDP-glucuronosyltransferase (UGT) activity. BPD UGT activity is induced in female F344 rat liver by treatment with the selective Phase 2 conjugation enzyme inducer oltipraz [4-methyl-5-(2-pyrazinyl)-1,2-dithiole-3-thione at 75-450 mg/kg per day for 3 days] and also by a polycyclic aromatic hydrocarbon-type inducer, beta-naphthoflavone (80 mg/kg per day for 3 days). Incubations of oltipraz-treated rat liver microsomes with racemic trans BPD (100 microM) resulted in formation of two fluorescent glucuronides that were resolved by silica thin layer chromatography (Rf 0.5 and 0.6). Incubations with either the (-) or (+) trans BPD isomers resulted in selective formation of the Rf 0.5 [designated -DS, for (-) diol specific] or Rf 0.6 [designated +DS, for (+) diol specific] glucuronide, respectively. The -DS and +DS BPD glucuronides were fluorescent under long wave ultraviolet irradiation, dependent on the presence of UDP-glucuronic acid in the incubation, and were beta-glucuronidase-sensitive. The inducing effect of oltipraz on BPD UGT activity was dose-dependent. The mean BPD UGT activity of the vehicle-treated control group was 0.05 +/- 0.02 nmol/mg per min compared with 0.53 +/- 0.07 nmol/mg per min in the group treated with oltipraz (450 mg/kg per day for 3 days) (P < 0.001). The apparent Km of the induced BPD UGT for BPD was 20 microM, suggesting that the enzyme has the capacity to bind and turnover BPD under physiological conditions. Pretreatment with beta-naphthoflavone, but not phenobarbital, induced BPD UGT activity to approximately the same extent as oltipraz. Neither oltipraz nor beta-naphthoflavone exhibited induction of BPD UGT in livers of homozygous Gunn rats, which lack functional UGT1-encoded isozymes. We conclude that the oltipraz- and polycyclic hydrocarbonresponsive BPD UGT is a member of the UGT1 family. The role of this isoform as a modifier of susceptibility to carcinogenesis elicited by B[a]P remains to be determined.
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PMID:Induction of a rat liver benzo[a]pyrene-trans-7,8-dihydrodiol glucuronidating activity by oltipraz and beta-naphthoflavone. 905 96

The intestinal bioavailability and biotransformation of 3-hydroxybenzo(a)pyrene, a major metabolite of benzo(a)pyrene in many animal species, was investigated in an in situ isolated intestinal preparation from the channel catfish, and in vitro with preparations of catfish intestine and blood. 3-Hydroxybenzo(a)pyrene was a good substrate for adenosine 3'-phosphate 5'-phosphosulfate (PAPS)-sulfotransferase and UDP-glucuronosyltransferase in cytosol or microsomes prepared from intestinal mucosa. The benzo(a)pyrene-3-glucuronide and 3-sulfate conjugates were only very slowly hydrolyzed by intestinal beta-glucuronidase and sulfatase. The K(m) values for PAPS-sulfotransferase and UDP-glucuronosyltransferase were 0.4 and 1 microM, respectively, and V(max) were 1.61 +/- 1.08 nmol benzo(a)pyrene-3-sulfate/min/mg of cytosolic protein and 1.08 +/- 0.54 nmol benzo(a)pyrene-3-glucuronide/min/mg of microsomal protein. Hydrolytic enzyme activities were three orders of magnitude slower. In the in situ intestinal preparation, [(3)H]3-hydroxybenzo(a)pyrene was readily metabolized to the glucuronide and sulfate conjugates. After 1 h of incubation of 2 or 20 microM [(3)H]3-hydroxybenzo(a)pyrene in the in situ preparation, the luminal contents contained 3-hydroxybenzo(a)pyrene, benzo(a)pyrene-3,6-dione, benzo(a)pyrene-3-sulfate, and benzo(a)pyrene-3-glucuronide. Mucosal samples contained these components, as well as some unextractable material. The blood contained mainly benzo(a)pyrene-3-sulfate and an as yet unidentified metabolite of 3-hydroxybenzo(a)pyrene bound to hemoglobin. Some, but not all, blood samples contained small amounts of 3-hydroxybenzo(a)pyrene, benzo(a)pyrene-3-glucuronide, and benzo(a)pyrene-3,6-dione. These studies demonstrate the rapid phase 2 conjugation of a phenolic benzo(a)pyrene metabolite in intestinal mucosa, and the transfer of the phase 2 sulfate and glucuronide conjugates to blood.
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PMID:Intestinal bioavailability and biotransformation of 3-hydroxybenzo(a)pyrene in an isolated perfused preparation from channel catfish, Ictalurus punctatus. 1130 39

The environmental estrogen bisphenol A (BPA) is regarded as a modulator of endocrine systems and has been reported to have adverse effects on the reproductive organs of animals. In rats, BPA is metabolized to glucuronide by UDP-glucuronosyltransferase UGT2B1 in the liver and excreted into the bile. In the present study, we found that most of the bisphenol A-glucuronide (BPA-GA) excreted into the small intestine was deconjugated in the contents of the cecum. After BPA administration, BPA-GA was (immediately should be 15 min) found in the contents of the upper part of the small intestine, and then it moved to the lower part of the small intestine. However, only free BPA was found in the content of the cecum, and there was smaller amount of free BPA in the colon contents, indicating that BPA had been reabsorbed in the colon. BPA-GA was deconjugated by extract prepared from the cecum content which included highest beta-glucuronidase (beta-Gase) observed in Western blot analysis using antibodies against bacterial beta-Gase. These results indicate enterohepatic circulation of BPA and suggest that the adverse effects of BPA are enhanced by repeated exposure.
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PMID:Excretion of bisphenol A-glucuronide into the small intestine and deconjugation in the cecum of the rat. 1239 27

1. The main purpose was to develop a high-performance liquid chromatography (HPLC)-based method to assay serotonin glucuronidation activity using liver microsomal fractions. Application of this method was then demonstrated by determining serotonin UDP-glucuronosyltransferase (UGT) enzyme kinetics using human liver microsomes and recombinant human UGT1A6. Interspecies differences were also evaluated using liver microsomes from 10 different mammalian species. 2. Incubation of liver microsomes with serotonin, UDP-glucuronic acid and magnesium resulted in the formation of a single product peak using HPLC with fluorescence and ultraviolet absorbance detection. This peak was confirmed as serotonin glucuronide based on sensitivity to beta-glucuronidase and by obtaining the expected mass of 352 with positive-ion mass spectrometry. 3. Following a preparative HPLC isolation, the structure of this metabolite was established as serotonin-5-O-glucuronide by (1)H-NMR spectroscopy. 4. Enzyme kinetic studies showed apparent K(m) and V(max) of 8.8 +/- 0.3 mM and 43.4 +/- 0.4 nmoles min(-1) mg(-1) protein, respectively, for human liver microsomes, and 5.9 +/- 0.2 mM and 15.8 +/- 0.2 nmoles min(-1) mg(-1), respectively, for recombinant UGT1A6. 5. The order of serotonin-UGT activities in animal liver microsomes was rat > mouse > human > cow > pig > horse > dog > rabbit > monkey > ferret. Cat livers showed no serotonin-UGT activity. Heterozygous and homozygous mutant Gunn rat livers had 40 and 13%, respectively, of the activity of the normal Wistar rat, indicating a significant contribution by a rat UGT1A isoform to serotonin glucuronidation. 6. This assay provides a novel sensitive and specific technique for the measurement of serotonin-UGT activity in vitro.
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PMID:Serotonin (5-hydroxytryptamine) glucuronidation in vitro: assay development, human liver microsome activities and species differences. 1262 59

1. The antitumour agent bropirimine undergoes significant Phase II conjugation in vivo. Incubation of [14C]bropirimine with human liver microsomes resulted in the formation of a single product peak (M1) using high-performance liquid chromatography with radiochemical detection and was tentatively assigned as bropirimine glucuronide based on sensitivity to beta-glucuronidase and by obtaining the expected mass of 442/444 amu with liquid chromatography/mass spectrometry. Following metabolite isolation, the structure of M1 was established as bropirimine O-glucuronide by 1H-nuclear magnetic spectroscopy. 2. Studies aimed at identifying the human liver UDP-glucuronosyltransferase (UGT) enzyme(s) involved in the glucuronidation of bropirimine were carried out using recombinant human UGTs and it was determined that glucuronidation of bropirimine was catalysed by UGT1A1, UGT1A3 and UGT1A9. Bropirimine O-glucuronidation followed Michaelis-Menten kinetics and the Km and Vmax (mean +/- SD; n = 3) were 1217 +/- 205 microM and 667 +/- 188 pmol min(-1) mg(-1), respectively. 3. The activity of bropirimine O-glucuronidation by human liver microsomes was inhibited by bilirubin (40%) and with mefenamic acid (80%). Although buprenorphine extensively inhibited the activity of bropirimine O-glucuronidation by UGT1A3, the inhibition profile did not parallel that observed in HLMs. 4. The results demonstrate that UGT1A9 and to a lesser extent UGT1A1 are responsible for the majority of bropirimine O-glucuronidation in man.
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PMID:Characterization of bropirimine O-glucuronidation in human liver microsomes. 1455 37

The purposes of this study were to develop a HPLC method to assay for haloperidol glucuronide (HALG); to apply this assay method to the in vitro determination of haloperidol (HAL) UDP-glucuronosyltransferase (UGT) enzyme kinetics in rat liver microsomes (RLM); and to identify the UGT isoforms catalyzing glucuronidation of HAL in rats. Incubation of Brij-activated RLM with HAL and UDP-glucuronic acid (UDPGA) in TRIS pH 7.4 buffer resulted in the formation of a single peak in the HPLC chromatogram at 270 nm. The identity of this peak was confirmed to be that of HALG by 1) beta-glucuronidase hydrolysis; 2) incubation without UDPGA; 3) UV spectral analysis; and 4) LC/MS/MS to yield the expected mass of 552.1. Enzyme kinetic studies using single enzyme Michaelis-Menton model showed an apparent Vmax = 271.9 +/- 10.1 pmoles min(-1) mg protein(-1) and Km = 61 +/- 7.2 microM. Glucuronidation activity in homozygous Gunn (j/j) rats was approximately 80% as compared to Sprague-Dawley RLM. HALG formation was approximately doubled in PB-induced RLM. There was no increase in glucuronidation activities in 3MC-induced RLM. The Gunn rat and the PB-induced RLM data suggest predominant but not exclusive involvement of the UGT2B family in the formation of HALG. Because the UGTs exhibit overlapping substrate specificities and most substrates are glucuronidated by more than one isoform, inhibition studies with UGT2B1 substrate probe testosterone and the UGT2B12 substrate probe borneol were conducted. UGT2B1 and UGT2B12 exhibited 40% and 90% inhibition of HAL glucuronidation, respectively. Thus, UGT2B12 and UGT 2B1 isoforms are responsible for catalyzing HAL glucuronidation in rats. Our HPLC assay provides a specific and sensitive technique for the measurement of in vitro HAL-UGT activity.
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PMID:Glucuronidation of haloperidol by rat liver microsomes: involvement of family 2 UDP-glucuronosyltransferases. 1501 Feb 63

Perfluorooctanoic acid (PFOA) is a fluorinated fatty acid analogue used as a surfactant in the manufacture of fluoropolymers. Previous studies have indicated that PFOA was metabolically inert in mammals, but recent metabolism studies with related fluorochemicals suggested that PFOA might form a glucuronide conjugate. [(14)C(1)]-PFOA was incubated with male and female human and rat liver, kidney, and small intestine microsomes. Incubations were carried out in the presence of alamethicin and beta-saccharolactone to increase access of PFOA to the enzyme active site and to inhibit potential hydrolysis of PFOA-glucuronide by microsomal beta-glucuronidase, respectively. Although positive control experiments using p-nitrophenol demonstrated significant UDP-glucuronosyltransferase (UDPGT) activity in all of the tested microsomal preparations, no evidence for formation of a PFOA-glucuronide was obtained, either by high-sensitivity radiochromatography or by LC/MS. These data suggest that PFOA is not a substrate for human or rodent microsomal UDPGTs.
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PMID:In vitro studies in microsomes from rat and human liver, kidney, and intestine suggest that perfluorooctanoic acid is not a substrate for microsomal UDP-glucuronosyltransferases. 1605 54

Contribution of translocon peptide channels to the permeation of low molecular mass anions was investigated in rat liver microsomes. Puromycin, which purges translocon pores of nascent polypeptides, creating additional empty pores, raised the microsomal uptake of radiolabeled UDP-glucuronic acid, while it did not increase the uptake of glucose-6-phosphate or glutathione. The role of translocon pores in the transport of small anions was also investigated by measuring the effect of puromycin on the activity of microsomal enzymes with intraluminal active sites. The mannose-6-phosphatase activity of glucose-6-phosphatase and the activity of UDP-glucuronosyltransferase were elevated upon addition of puromycin, but glucose-6-phosphatase and beta-glucuronidase activities were not changed. The increase in enzyme activities was due to a better access of the substrates to the luminal compartment rather than to activation of the enzymes. Antibody against Sec61 translocon component decreased the activity of UDP-glucuronosyltransferase and antagonized the effect of puromycin. Similarly, the addition of the puromycin antagonist anisomycin or treatments of microsomes, resulting in the release of attached ribosomes, prevented the puromycin-dependent increase in the activity. Mannose-6-phosphatase and UDP-glucuronosyltransferase activities of smooth microsomal vesicles showed higher basal latencies that were not affected by puromycin. In conclusion, translationally inactive, ribosome-bound translocons allow small anions to cross the endoplasmic reticulum membrane. This pathway can contribute to the nonspecific substrate supply of enzymes with intraluminal active centers.
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PMID:Translocon pores in the endoplasmic reticulum are permeable to small anions. 1661 37

The conversion of UDP-glucuronate to glucuronate, usually thought to proceed by way of glucuronate 1-phosphate, is a site for short-term regulation of vitamin C synthesis by metyrapone and other xenobiotics in isolated rat hepatocytes. Our purpose was to explore the mechanism of this effect in cell-free systems. Metyrapone and other xenobiotics stimulated, by approximately threefold, the formation of glucuronate from UDP-glucuronate in liver extracts enriched with ATP-Mg, but did not affect the formation of glucuronate 1-phosphate from UDP-glucuronate or the conversion of glucuronate 1-phosphate to glucuronate. This and other data indicated that glucuronate 1-phosphate is not an intermediate in glucuronate formation from UDP-glucuronate, suggesting that this reaction is catalysed by a 'UDP-glucuronidase'. UDP-glucuronidase was present mainly in the microsomal fraction, where its activity was stimulated by UDP-N-acetylglucosamine, known to stimulate UDP-glucuronosyltransferases by enhancing the transport of UDP-glucuronate across the endoplasmic reticulum membrane. UDP-glucuronidase and UDP-glucuronosyltransferases displayed similar sensitivities to various detergents, which stimulated at low concentrations and generally inhibited at higher concentrations. Substrates of glucuronidation inhibited UDP-glucuronidase activity, suggesting that the latter is contributed by UDP-glucuronosyltransferase(s). Inhibitors of beta-glucuronidase and esterases did not affect the formation of glucuronate, arguing against the involvement of a glucuronidation-deglucuronidation cycle. The sensitivity of UDP-glucuronidase to metyrapone and other stimulatory xenobiotics was lost in washed microsomes, even in the presence of ATP-Mg, but it could be restored by adding a heated liver high-speed supernatant or CoASH. In conclusion, glucuronate formation in liver is catalysed by a UDP-glucuronidase which is closely related to UDP-glucuronosyltransferases. Metyrapone and other xenobiotics stimulate UDP-glucuronidase by antagonizing the inhibition exerted, presumably indirectly, by a combination of ATP-Mg and CoASH.
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PMID:Glucuronate, the precursor of vitamin C, is directly formed from UDP-glucuronate in liver. 1668 37


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