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)

Rats receiving with drinking water a 0.4% solution of a-butyl-N-butanol-nitrosamine developed by 4 months transitional cell papillomas and by 10 months transitional cell carcinomas in their urinary bladders. Histochemical examinations of the transitional epithelium in the course of malignization revealed a gradual decrease in the activity of nonspecific alkaline phosphatase and increased activity of monoaminoxidase and beta-glucuronidase. A significantly increased activity of nonspecific acid phosphatase was observed in areas of squamous cell metaplasia.
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PMID:[Changes in the urinary bladders of rats during experimental carcinogenesis]. 52 62

Human lung explants have been maintained in vitro for a period of 25 days. Autoradiographic studies indicated that the broncholar epithelial cells, type 2 alveolar epithelial cells, and stromal fibroblasts incorporated 3H-thymidine during the culture. After 7 to 10 days, type 2 cells were the predominant alveolar epithelial cell type. Lamellar inclusion bodies were released from the type 2 cells and accumulated in the alveolar spaces. The metabolism of benzo[alpha]pyrene (BP) in human lung explants cultured for up to 7 days was investigated. Human lung explants had measurable aryl hydrocarbon hydroxylase activity and could metabolize BP into forms that were bound to cellular DNA and protein. Peripheral lung had significantly lower aryl hydrocarbon hydroxylase activity than cultured bronchus but both tissues had similar binding levels of BP to DNA. Radioautographic studies indicated that all cell types in the peripheral lung can metabolize BP. The major ethylacetate extractable metabolites of BP formed by peripheral lung were tetrols and trans-7,8-diol. The primary water-soluble metabolite released with arylsulfatase and beta-glucuronidase was 3-hydroxybenzo[alpha]pyrene.
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PMID:Explant culture of human peripheral lung. I. Metabolism of benzo[alpha]pyrene. 66 Dec 25

Initial excretion studies with orally administered [monoethyl-1-3H] DES demonstrated the feces to be the principal mode of elimination of DES in the C3H mouse. Metabolic studies with tritiated DES and/or [UL-14C] DES were performed with orally dosed C3H high (MTV+) and low (MTV-) titer MMTV female mice. Extraction and partitioning of the fecal radioactivity demonstrated 77 to 86% (n = 4) to be benzene soluble and the remainder H2O soluble. The principal product in the organic phase following Sephadex LH-20 and HPLC purification was DES. The aqueous phase was resolved by LH-20 into two conjugate fractions that were partially hydrolyzed by beta-glucuronidase. The principal aglycone was chromatographically identical with authentic DES. The urinary conjugates were resolved into six fractions. The four major fractions were 80% hydrolyzable with beta-glucuronidase. Two of these fractions had trans-DES as the principal aglycone, whereas the other two had a major peak similar to but not chromatographically coincident with cis-DES. In certain experiments mice were sequentially dosed with tritium (24 hr) followed by a 14C dose (24 hr). Two mice (MTV+) were also previously fed 1000 ppb DES prior to these experiments. The tritated and 14C products were combined and analyzed simultaneously. This experiment did not reveal significant differences in the metabolism due to the modes of radioactive labeling, MMTV titer, or the prior feeding of DES. The developed methodology was judged to purify quantitatively 90% or more of the DES radioactive products.
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PMID:Metabolism of diethylstilbestrol in the C3H mouse: chromatographic systems for the quantitative analysis of DES metabolic products. 66 80

The formation of water-soluble metabolites of tritium-labeled benzo[a]pyrene (BP) by cultured hamster embryo cells was studied. The ratio of the radioactivity in the aqueous phase to that in the organic phase increased with the incubation period. After incubation for 48 h with 3.75 nmol/ml of [3H] BP in the medium more than 90% of the 3H-radioactivity was found in the aqueous phase, whereas with 10-fold more BP about half the radioactivity remained in the organic phase. The main metabolites extracted from the medium at 37.5 nmol/ml BP with ethyl acetate by high pressure liquid chromatography (HPLC) were 9,10-diol and 7,8-diol; but after treatment of the medium with beta-glucuronidase the main oxygenated metabolites were phenols, the amount of 9-OH BP being more than that of 3-OH BP. beta-Glucuronidase also released 9,10-diol and 7,8-diol, but most of these diols were in the free form in the medium. The medium from cells treated with 3.75 nmol/ml BP has a quantitatively different profile, and most of the radioactivity obtained by extraction with organic solvent and digestion with beta-glucuronidase was eluted in the regions of phenols. These results show that in hamster embryo cells BP is mainly metabolised to conjugates of phenols with glucuronic acid.
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PMID:Glucuronidation of benzo[a]pyrene in hamster embryo cells. 68 21

A mixture of [19-3H]hydroxyandrostenedione and [14C]androstenedione was administered intravenously to 3 women and urine was collected. Only negligible radioactivity could be extracted from the untreated urine. Most of the 14C but only 11% of the 3H was rendered solube in organic solvents by beta-glucuronidase. [3H-19]hydroxyandrostenedione was recovered from this fraction. The conjugates remaining in the urine were extracted into CHCl3 as their pyridinium salts. After solvolysis of the extract with HCLO4 in tetrahydrofuran, neutral metabolites were obtained. Substances extractable from water with organic solvents were obtained by solvolysis of the conjugates with perchloric acid in tetrahydrofuran. [3H-19]hydroxyandrostenedione was identified by isotopic dilution as the major product of solvolysis. Thus, 19-hydroxyandrostenedione undergoes conjugation with glucuronic acid and probably sulfuric acid, most likely at C-19. The major urinary metabolite is the sulfate-like conjugate. Reduction in ring A is less important than for other steroids.
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PMID:Metabolism of 19-hydroxyandrostenedione in human subjects. Urinary excretion of conjugates. 75 31

An improved method for the simultaneous gas-chromatographic determination of individual 17-oxosteroids and of pregnanediol in the same sample of urine is described. The method involves the following steps. The urinary sample is chromatographed on Amberlite XAD-2. The fraction containing the steroid conjugates is evaporated; the residue is dissolved in n-heptane and the organic phase extracted with water. The steroid glucuronides are hydrolysed by a bacterial beta-glucuronidase; subsequently, the steroid sulphates are solvolysed in ethyl acetate. Free 17-oxosteroids and pregnanediol are separated by two-dimensional thin-layer chromatography. The zone containing the steroids to be investigated is eluted; after evaporation, the residue is treat with N-methyl N-trimethyl silyl trifluoroacetamide. The reaction mixture is injected into a gas chromatograph; the trimethyl silyl ethers of the individual 17-oxosteroids and of pregnanediol are quantitated by measuring the peak heights.
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PMID:An improved method for the simultaneous determination of individual 17-oxosteroids and of pregnanediol in urine by gas-liquid chromatography. 86 85

THE 3-G was added to H2O and 56 urines, and the recovered THE was measured by the Porter-Silber method. The recovery from H2O was quantitative (98 +/- 2%), but highly variables from urine, ranging from 35 to 100%. The necessity of the proper standard in analysis of urinary steroid glucuronides was demonstrated. The presence in urine of endogenous inhibitors to beta-glucuronidase was confirmed.
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PMID:The use of tetrahydrocortisone-3-beta-D-glucuronide in the measurement of urinary 17-hydroxycorticosteroids. 92 39

The ability to form androgen conjugates and the hormone dependency of the conjugating enzymes have been studied in the rat epididymis. Following the in vitro incubation of 3H-testosterone with epididymal slices from intact and castrated rats, the radioactivity recovered was partitioned between water and ether. Examination of the water soluble radioactivity demonstrated the presence of glucuronides and sulfates. The total radioactivity in the conjugate fraction was the same for both intact and castrated animals. However, castrated rats showed a 3-fold increase in the glucuronide fraction with a corresponding decrease in the formation of sulfates. Characterization of the ether soluble radioactivity after solvolysis of the conjugate fraction from castrated animals, showed DHT (17beta-hydroxy-5alpha-androstan-3-one) and 3alpha-diol (5alpha-andro-stane-3alpha, 17beta-diol) to be the main metabolites. After beta-glucuronidase hydrolysis of the same, only 3alpha-diol could be demonstrated at a significant level, although traces of DHT and delta16 compounds were present. Corresponding hydrolysis of the water phase from incubation of epididymis from intact rats, demonstrated a marked quantitative difference. Here approximately 40% of the conjugated aglycones consisted of delta16 compounds, whilst only about 12% was comprised of 3alpha-diol. The preferential conjugation of DHT and 3alpha-diol to a sulfate radical was demonstrated in both intact and castrated rats. Since the conjugated delta16 compounds were detected only in the epididymis from intact animals, it is possible that these are formed by the spermatozoa.
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PMID:Androgen metabolism by rat epididymis. 4. The formation of conjugates. 94 Nov 82

Changes in intracellular water content appear to be common abnormalities induced by a wide variety of pathogenic mechanisms. Such changes in cell water produce changes in the water in various subcellular organelles bound by semipermeable membranes. Cell and subcell functions then alter in their turn. In isolated alveolar macrophages (rabbit), intracellular and intramitochondrial oedema reduces mitochondrial O2 utilization. Metabolic control is maintained because lactate production reverses (Pasteur effect). On reconstitution, O2 utilization and lactate production return towards normal, indicating reversibility. Cellular and intramitochondrial dehydration also reduces mitochondrial O2 utilization but metabolic control is lost because lactate production also decreases. Osmotic reconstitution does not reverse the abnormality. Exposure to hypotonic media leads to release of lysosomal enzymes (beta-glucuronidase, EC 3.2.1.31) to the extracellular phase of isolated alveolar macrophages. Some of this release is caused by exocytosis although, at low osmotic concentrations, intralysosomal oedema ultimately ruptures lysosomes, with extensive discharge of enzyme. In turn, lysosomal enzymes may injure more normal cells. Impairment of energy metabolism caused by hypoxia leads to intracellular oedema, because Na+ accumulates in the cells when ATP is no longer available for the sodium pump. Continued studies of the disorders in cell physiology caused by changes in cell and subcell water should provide important new insights into a wide variety of disease states (including pulmonary oedema).
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PMID:Intracellular and subcellular oedema and dehydration. 104 40

This report describes morphometric and biochemical changes in the renal lysosome system of rats exposed to 3, 5, or 10 p.p.m. concentrations of methyl mercury hydroxide in their drinking water for 4 weeks. Increased numbers of dense, granular lysosomes, previously found to contain mercury, were observed in tubule cells of rats receiving the 3 and 5 p.p.m. dose levels but not those of the 10 p.p.m. group. Tubule cells from animals given the 10 p.p;m. dose level displayed proteinaceous vacuoles with dense crystalloid structures, apical cytoplasmic extrusion, and cellular degeneration; Mitochondrial swelling within tubule cells of treated animals showed a marked dose-response relationship. Renal microsomal activity levels of ss-glucuronidase were strongly inhibited by methyl mercury hydroxide exposure at all dose levels, whereas the activity levels of acid phosphatase were unchanged. Lysosomal beta-glucuronidase was also inhibited by methyl mercury hydroxide exposure, whereas lysosomal acid phosphatase showed approximately a 2-fold increase in activity. The results are discussed in relation to the role of lysosomes in mediating the nephrotoxic effects of methyl mercury and other toxic trace metals.
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PMID:The effects of chronic oral methyl mercury exposure on the lysosome system of rat kidney. Morphometric and biochemical studies. 112 12


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