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)

Both UDP-glucuronyltransferase (GT) and beta-glucuronidase (betaG) were assayed in untreated liver microsomes. Optimum assay conditions were established with rat liver microsomes using p-nitrophenol (pNP) and its glucuronide (pNPGA) at the pH optima of GT (7.5) and betaG (4.5). The activities of the two enzymes were compared using microsomes from rats, mice, pigs, cattle and horses, with pNP, pNPGA, and phenolphthalein as substrate, in the presence of various cofactors and inhibitors at pH 7.5 and 4.5. These data disclose pronounced differences with respect to species, substrate and other experimental conditions, thereby precluding the establishment of general optimum conditions. The two enzymes were also assayed under strictly identical conditions using pNP and pNPGA and rat liver microsomes at pH 7.5 in the presence and absence of UDP-glucuronate disodium (UDPGA), activators (ATP;UDP-N-acetylglucosamine) and inhibitors. When provided with a functional level of UDPGA, both enzymes proved active under those conditions, and a conjugation-deconjugation interplay was indicated. The two processes could be selectively and totally inhibited by Zn2+ and saccharolactone. The results suggest that conjugation-deconjugation-reconjugation cycles may be operative in the metabolism of drugs in vivo, taking place already at the level of the liver endoplasmic reticulum.
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PMID:Liver microsomal beta-glucuronidase and UDP-glucuronyltransferase. 0 Feb 30

Microsomal fraction contains the whole of hepatic UDP-glucuronyltransferase as well as part of beta-glucuronidase. The activities of the two enzymes were assayed under identical conditions using untreated male rat liver microsomes at pH 7.5. In a 30-min incubation with p-nitrophenol and UPD-glucuronic acid, a net glucuronide formation of 0.010 mumol.min-1.g.liver-1 was measured. In the presence of saccharolactone at concentrations selectively blocking beta-glucuronidase, the glucuronidation rate was 0.015 mumol.min-1.g.liver-1. Using the kinetic parameters of beta-glucuronidase (Km = 0.06 mmol/l p-nitrophenylglucuronide, Vm = 0.075 mumol pNP formed.h-1.g.liver-1) determined in the absence of UDP-glucuronic acid, to correct for the beta-glucuronidase's interference on the glucuronidation process, a glucuronide formation of 0.011 mumol.min-1.g.liver-1 was calculated.
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PMID:Interference of UDP-glucuronyltransferase and beta-glucuronidase activity in rat liver microsomes at pH 7.5 with p-nitrophenol and p-nitrophenylglucuronide as substrates. 3 49

The transverse distribution of enzyme proteins and phospholipids within microsomal membranes was studied by analyzing membrane composition after treatment with proteases and phospholipases. Upon trypsin treatment of closed microsomal vesicles, NADH- and NADPH-cytochrome c reductases as well as cytochrome b5 were solubilized or inactivated, while cytochrome P-450 was partially inactivated. When microsomes were exposed to a concentration of deoxycholate which makes them permeable to macromolecules but does not disrupt the membrane, the detergent alone was sufficient to release four enzymes: nucleoside diphosphatase, esterase, beta-glucuronidase, and a portion of the DT-diaphorase. Introduction of trypsin into the vesicle lumen inactivated glucose-6-phosphatase completely and cytochrome P-450 partially. The rest of this cytochrome, ATPase, AMPase, UDP-glucuronyltransferase, and the remaining 50% of DT-diaphorase activity were not affected by proteolysis from either side of the membrane. Phospholipase A treatment of intact microsomes in the presence of albumin hydrolyzed all of the phosphatidylethanolamine, phosphatidylserine, and 55% of the phosphatidylcholine. From this observation, it was concluded that these lipids are localized in the outer half of the bilayer of the microsomal membrane; Phosphatidylinositol, 45% of the phosphatidylcholine, and sphingomyelin are tentatively assigned to the inner half of this bilayer. It appears that the various enzyme proteins and phospholipids of the microsomal membrane display an asymmetric distribution in the transverse plane.
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PMID:Enzyme and phospholipid asymmetry in liver microsomal membranes. 19 Feb 41

The problems and priorities involved in studying the role of conjugagive enzymes in developmental pharmacology are discussed and evaluated. The relative rates of UDP glucuronyltransferase and beta-glucuronidase were studied during perinatal development in hepatic and extrahepatic tissues to determine the net balance of glucuronidation or deglucuronidation at different developmental stages. In general, deglucuronidation predominated over glucuronidation in fetal tissues whereas the converse was evident in adults. 2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD), an extremely toxic contaminant of some organochlorine compounds, was shown to be a potent inducer of some hepatic and extrahepatic drug-metabolizing enzymes. TCDD, administered during gestation, induced the postnatal activities of p-nitrophenol glucuronyltransferase and benzpyrene hydroxylase in rats. Foster mother experiments revealed that the postnatal induction was caused primarily by newborn exposure to TCDD in the mother's milk. Tissue distribution experiments with TCDD-14C confirmed these findings. Although TCDD induced non-steroid glucuronidation, no significant effects were evident on the postnatal development of steroid glucuronidation. The synthetic estrogen diethylstilbestrol (DES) is metabolized primarily by glucuronidation. The postnatal development of DES glucuronidation, like the steroid pathway, was not affected by gestational TCDD treatment. The fetal distribution of DES and DES-glucuronide, at different stages of development, correlated well with the perinatal development of steroid glucuronyltransferase activity.
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PMID:Perinatal development of conjugative enzyme systems. 82 87

The activity patterns during development for acid phosphatase (Ac-P), alkaline phosphatase (A1-P), beta-glucuronidase (beta G), and UDP-glucuronyltransferase (UDPGT) have been determined in various tissues of the rat for corn oil and distilled water controls as well as in animals prenatally exposed to four fetotoxic chemicals. Postnatal assays were performed on both sexes separately. In control animals, tissue-specific differences between male and female activity levels were found for UDPGT. In the liver of mature offspring, enzyme activity was greater in males than in females. Although no sex difference was observed in the intestine, the kidneys of females exhibited higher values than those of males. An original computer-assisted methodology is presented, designed (a) to permit a mathematical description for the complex curves exhibited by these ontogeny profiles, and (b) to assess the statistical significance of chemical-induced alterations in these complex developmental patterns, specifically, to target sensitive periods and subtle changes near the fetotoxic threshold. Oral administration (days 6-18 of gestation) of 3,3',4,4'-tetrachlorobiphenyl (4CB) to pregnant females resulted in an induction of liver UDPGT activity in offspring postnatally, and some alterations in the perinatal pattern of beta G in the same tissue. This treatment also produced differences in the intestinal patterns of Ac-P and male UDPGT. No significant changes were observed in offspring exposed to diethylstilbestrol (DES). Treatment with zeranol (ZN) caused reductions in activity over the entire postnatal period for beta G in liver, brain, intestine, and kidney, for A1-P in brain, and for Ac-P in the intestine. Cadmium-treated dams gave birth to offspring that exhibited slightly altered ontogenies only in intestine for UDPGT and AcP. The alterations in these developmental profiles indicate periods of increased sensitivity, and may be useful in directing more specific studies into the fetotoxic mechanisms of these compounds.
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PMID:Fetotoxic alterations in the normal ontogenies of rat microsomal and lysosomal enzymes. 177 May 2

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 effect of various metals on uridine diphosphate (UDP)-glucuronyltransferase and beta-glucuronidase activities in rat liver microsomes was investigated. The presence of Mn2+, Cd2+, Zn2+, V5+, Ni2+, Co2+, Cu+ or Ca2+ (20 microM) in the enzyme reaction mixture did not cause a significant alteration of UDP-glucuronyltransferase activity in hepatic microsomes. Of these metals, Zn2+ and Cd2+ (20 microM) caused a remarkable increase in hepatic microsomal beta-glucuronidase activity. Appreciable effects of Zn2+ and Cd2+ on beta-glucuronidase activity were seen at 5.0 microM, and the effects were saturated at 50 microM. Ca2+ (5.0-50 microM) and/or the Ca2(+)-binding protein regucalcin (2.0 microM) did not have an appreciable effect on UDP-glucuronyltransferase and beta-glucuronidase activities in hepatic microsomes. Thus, Zn2+ and Cd2+ uniquely increased beta-glucuronidase activity. The Zn2(+)- and Cd2(+)-induced increase in beta-glucuronidase activity was completely reversed by the presence of an SH group-protecting reagent (dithiothreitol). The response of the microsomal enzyme to Zn2+ and Cd2+ (20 microM) was no longer seen after treatment with 0.2% Triton X-100 [polyoxyethylene(10)octylphenyl ether], indicating that the stimulation by these metals is dependent on membrane association. The present study suggests that, of various metals tested, Zn2+ and Cd2+ can uniquely increase hepatic microsomal beta-glucuronidase activity and that their effect is based on binding to membranous SH groups, beside the enzyme protein.
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PMID:Effects of Ca2+, Zn2+ and Cd2+ on uridine diphosphate-glucuronyltransferase and beta-glucuronidase activities in rat liver microsomes. 211 Aug 67

Uridine diphosphoglucuronyltransferase (UDPGT) and beta-glucuronidase (beta G) activities were measured in liver, small intestine, lung, and kidney of male Fischer rats between the ages of 2 and 30 months in order to evaluate the balance between glucuronidation and deglucuronidation reactions as a function of age. Both enzyme activities were determined colorimetrically. UDPGT was measured using both p-nitrophenol (PNP) and phenolphthalein (PT) as substrates, while p-nitrophenyl-beta-D-glucuronide was used to measure BG activity. No age-related change was detected in small intestine or lung with either enzyme. UDPGT-PT activity was only detected in liver where its activity increased about 2-fold at 96 weeks of age and remained elevated. UDPGT-PNP activity displayed a maturational decrease up to 15 weeks in liver and then remained constant with age. BG activity was measured in both the microsomal and S9 fractions of these tissues. In liver, the microsomal BG activity remained constant with age. However, in the S9 fraction, this activity displayed an increasing trend after 24 weeks. BG activity in kidney microsomes also showed this increase in both fractions. UDPGT-PNP activity in kidney extract exhibited a gradual decreasing trend with age. If these results represent the in vivo situation, the changes in the balance between glucuronidation and deglucuronidation with age not only depend on the substrate, but also on the tissue. An emphasis is placed on separating out changes due to maturation or disease from those due to senescence.
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PMID:Age-related changes in glucuronidation and deglucuronidation in liver, small intestine, lung, and kidney of male Fischer rats. 285 79

A previously validated small mammal trauma model, hind-limb ischemia secondary to infrarenal aortic ligation in the rat, was utilized to investigate the effects of traumatic injury on hepatic glucuronidation activity. As was previously observed with hepatic oxidative drug metabolism, model trauma resulted in a significant decrease in the in vivo glucuronidation of chloramphenicol, with a 23% drop in clearance of this drug. The effect on in vivo pharmacokinetics appeared to result from a complex interaction between trauma's differential influences on conjugating enzyme(s), deconjugating enzyme(s), and hepatic UDP-glucuronic acid levels, as well as the relative physiological importance of these variables. Hepatic UDP-glucuronyltransferase activities towards both p-nitrophenol and chloramphenicol were elevated (44-54%) after model injury when measured in native hepatic microsomes. However, microsomes which had been "activated" by treatment with Triton X-100 showed no significant difference between control and traumatized animals. Serum beta-glucuronidase activities were elevated by 58%, while hepatic beta-glucuronidase rose by about 16%. Nevertheless, in vivo deconjugation showed no significant change. Model trauma also resulted in a 46% decrease in hepatic UDP-glucuronic acid content. Thus, the observed post-traumatic depression of in vivo chloramphenicol glucuronidation could be due either to a diminished availability of a necessary cofactor (UDP-glucuronic acid) or to an alteration in enzyme kinetics or function in vivo.
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PMID:Effects of model traumatic injury on hepatic drug metabolism in the rat. IV. Glucuronidation. 286

A biosynthetic acyl-type glucuronic acid conjugate of furosemide was isolated from in vitro incubation of pregnenolone-16 alpha-carbonitrile-induced rat liver microsomes containing UDP-glucuronyltransferase activity, furosemide, and UDP-glucuronic acid. Furosemide 1-O-acyl glucuronide (FG) was specifically hydrolyzed by beta-glucuronidase (BG) and was also labile to alkaline hydrolysis. FG concentration decreased at an apparent first order rate when incubated at 37 degrees C in buffer solution of pH values greater than 6.0 with only moderate hydrolysis of the conjugate at pH values less than 8.5. Formation of rearrangement forms of FG that were resistant to BG but labile to alkaline hydrolysis accounted for most of the disappearance of FG at this pH range. Radiochemical labeling of the conjugate with either 14C-furosemide or 14C-UDP-glucuronic acid was detected in the BG-resistant isomerization products of FG as they were separated by HPLC. The structure of FG and its isomerization products was further verified by negative ion thermospray liquid chromatography/mass spectrometry. The abundant (M - 1)-ion at mass 505, the aglycone fragment at m/z 329, and the characteristic sugar fragment ion of mass 175 were found in the spectra of FG and three additional isomers. An ion at m/z 221 was noted only in the case of the parent conjugate and thus may prove to be a characteristic ion for 1-O-acyl-linked glucuronides under negative ion thermospray. In vivo as well as in vitro rearrangement of FG to BG-resistant forms might affect the results of furosemide disposition studies which use BG hydrolysis to determine FG formation.
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PMID:Furosemide 1-O-acyl glucuronide. In vitro biosynthesis and pH-dependent isomerization to beta-glucuronidase-resistant forms. 286 75


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