EC:3.1.3.9 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.9 (glucose-6-phosphatase)
3,081 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Propylene is hepatotoxic to male Charles River COBS Sprague-Dawley rats pretreated with polychlorinated biphenyls (PCB: Aroclor 1254). Four-hour inhalation exposure to 50,000 ppm propylene increased liver weight/body weight ratios and elevated serum enzyme activities in PCB-pretreated animals. Hepatic microsomal cytochrome P-450 content of PCB-pretreated rats dropped profoundly during propylene exposure and remained depressed for at least 24 h. In addition, PCB-pretreated, propylene-exposed rats exhibited a decrease in the specific activity of hepatic microsomal aniline hydroxylase. However, there was no change in activities of either hepatic microsomal aminopyrine demethylase or glucose-6-phosphatase. Propylene exposure of rats pretreated with beta-naphthoflavone (BNF), phenobarbital (PB), or a mixture of BNF and PB was not hepatotoxic. However, there was, in these animals, a substantial decline in hepatic microsomal cytochrome P-450 levels 24 h after the start of propylene exposure. Hence, the propylene-dependent process resulting in hepatic cytochrome P-450 destruction is qualitatively or quantitatively different from the process that causes acute hepatotoxicity. Preexposure fasting had no effect on the hepatotoxicity resulting from a 4-h exposure of PCB-pretreated rats to 50,000 ppm propylene. Administration of SKF-525A to PCB-pretreated rats immediately prior to propylene exposure completely prevented elevations in serum enzyme activities and liver weight/body weight ratios. In vitro incubation of hepatic microsomes prepared from either BNF-, PB-, or PCB-pretreated rats with an atmosphere of 20% propylene/80% air produced in NADPH-dependent decrease in cytochrome P-450 content. These results suggest that PCB pretreatment is a prerequisite for propylene hepatotoxicity in the rat. Cytochrome P-450-dependent bioactivation of propylene is associated with this hepatotoxicity, but further studies are needed to characterize the mechanism of the PCB-propylene interaction.
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PMID:Mixed-function oxidase system induction and propylene hepatotoxicity. 298 38

The effects of lipid peroxidation on latent microsomal enzyme activities were examined in NADPH-reduced microsomes from phenobarbital-pretreated male rats. Lipid peroxidation, stimulated by iron or carbon tetrachloride, was assayed as malondialdehyde formation. Independent of the stimulating agent of lipid peroxidation, latency of microsomal nucleoside diphosphatase activity remained unaffected up to microsomal peroxidation equivalent to the formation of about 12 nmol malondialdehyde/mg microsomal protein. However, above this threshold a close correlation was found between lipid peroxidation and loss of latent enzyme activity. The loss of latency evoked by lipid peroxidation was comparable to the loss of latency attainable by disrupting the microsomal membrane by detergent. Loss of latent enzyme activity produced by lipid peroxidation was also observed for microsomal glucose-6-phosphatase and UDPglucuronyltransferase. In contrast to nucleoside diphosphatase, however, both enzymes were inactivated by lipid peroxidation, as indicated by pronounced decreases of their activities in detergent-treated microsomes. According to the respective optimal oxygen partial pressure (po2) for lipid peroxidation, the iron-mediated effects on enzyme activities were maximal at a po2 of 80 mmHg and the one mediated by carbon tetrachloride at a po2 of 5 mmHg. Under anaerobic conditions no alterations of enzyme activities were detected. These results demonstrate that loss of microsomal latency only occurs when peroxidation of the microsomal membrane has reached a certain extent, and that beyond this threshold lipid peroxidation leads to severe disintegration of the microsomal membrane resulting in a loss of its selective permeability, a damage which should be of pathological consequences for the liver cell. Because of its resistance against lipid peroxidation nucleoside diphosphatase is a well-suited intrinsic microsomal parameter to estimate this effect of lipid peroxidation on the microsomal membrane.
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PMID:Loss of latent activity of liver microsomal membrane enzymes evoked by lipid peroxidation. Studies of nucleoside diphosphatase, glucose-6-phosphatase, and UDP glucuronyltransferase. 298 17

Microsomal preparations isolated from rat liver were used to study the action of 2.2'-pyridylisatogen tosylate (PIT) on aniline hydroxylation, cytochrome c reduction and NADPH oxidation. PIT was found to inhibit both the NADPH-dependent (5-100 microM, PIT) and the NADPH-independent (0.05-2.5 mM, PIT) hydroxylation of aniline, but had no significant effect on either the NADPH-dependent oxidation of hexobarbital, or the NADPH-independent hydrolysis of glucose-6-phosphatase. PIT was also found to inhibit cytochrome c reductase competitively (Ki = 35 microM) and to stimulate NADPH oxidation (ED50 = 6.5 microM) PIT and aniline were both found to bind to the microsomal haemoprotein cytochrome P-450 and produce Type II spectral changes. It is proposed that PITs ability to bind to the haemoprotein and its ability to accept electrons from the microsomal NADPH-cytochrome c reductase system leads to the inhibition of aniline hydroxylase activity.
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PMID:The mechanism of inhibition by 2,2'-pyridylisatogen tosylate of NADPH-linked enzyme activities in microsomes isolated from rat liver. 299 19

Sonic disrupted mitoplasts from 3-methylcholanthrene (MCA) treated rats can catalyze the formation of benzo(a)pyrene (BaP) adducts with calf thymus DNA in the presence of an NADPH generating system. The mitoplasts used in this study contained less than 1% microsomal marker enzymes: rotenone insensitive NADPH cytochrome c reductase and glucose-6-phosphatase. The rates of BaP metabolism and DNA adduct formation per nanomole cytochrome P-450 were different for MCA induced mitochondrial and microsomal enzymes. The major B(a)P DNA adducts formed in incubations with lysed mitoplasts were derived from reaction of 9-OH-B(a)P-4,5 oxide with deoxyguanosine. The results suggest a potential role of mitochondrial monooxygenase activity in the covalent binding of B(a)P to mitochondrial DNA.
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PMID:Formation of benzo(alpha)pyrene metabolites and DNA adducts catalyzed by a rat liver mitochondrial monooxygenase system. 299 32

The administration of medroxyprogesterone acetate (MPA) and phenobarbital (PB) improves liver function in rats with liver damage. This was seen here as increased aryl hydrocarbon hydroxylase (AHH) activity after therapy with MPA or PB in rats with a chemical liver injury, produced by dimethylnitrosamine (DMN). Hepatic glucose-6-phosphatase (G6Pase) activity, an index of glucose metabolism was also normalized in the MPA treated rats. The present study further shows that MPA induced hepatic malic enzyme (ME) and isocitrate dehydrogenase (ICDH) activities and PB enhanced glucose-6-phosphate dehydrogenase (G6PDH), 6-phosphogluconate dehydrogenase (6PGDH) and ME activities in the DMN pretreated rats. This suggests that MPA and PB enhanced the capacity of altered liver tissue to generate NADPH, a cofactor in the monooxygenase system, which may, in part, enhance the restoration of drug hydroxylation in the rats. Since G6PDH, 6PGDH and ME participate in glucose metabolism, the finding that the compounds influenced these enzymes in distinct ways, may explain the different effects of MPA and PB on the restoration of glucose metabolism.
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PMID:Medroxyprogesterone acetate and phenobarbital induce NADPH producing enzyme activities in rats with a chemical liver injury. 300 83

Alterations of catalytic activities of the microsomal glucose-6-phosphatase system were examined following either ferrous iron- or halothane (CF3CHBrCl) and carbon tetrachloride (CCl4) free-radical-mediated peroxidation of the microsomal membrane. Enzyme assays were performed in native and solubilized microsomes using either glucose 6-phosphate or mannose 6-phosphate as substrate. Lipid peroxidation was assessed by the amounts of malondialdehyde equivalents formed. Regardless of whether the experiments were performed in the presence of NADPH/Fe3+, NADPH/CF3CHBrCl, or NADPH/CCl4, with the onset of lipid peroxidation, mannose-6-phosphatase activity of the native microsomes increased immediately, while further alterations in catalytic activities were only detectable when lipid peroxidation had passed characteristic threshold values: above 2 nmol malondialdehyde/mg microsomal protein, glucose-6-phosphatase activity of the native microsomes was lost, and at 10 nmol malondialdehyde/mg microsomal protein, glucose-6-phosphatase and mannose-6-phosphatase activity of the solubilized microsomes started to decline. It is concluded that the latter alterations are due to an irreversible damage of the phosphohydrolase active site of the glucose-6-phosphatase system, while the changes observed at earlier stages of microsomal lipid peroxidation may also reflect alterations of the transporter components of the glucose-6-phosphatase system. Virtually no changes in the catalytic activities of the glucose-6-phosphatase system occurred under anaerobic conditions, indicating that CF3CHCl and CCl3 radicals are without direct damaging effect on the glucose-6-phosphatase system. Further, maximum effects of carbon tetrachloride and halothane on lipid peroxidation and enzyme activities were observed at an oxygen partial pressure (PO2) of 2 mmHg, providing additional evidence for the crucial role of low PO2 in the hepatotoxicity of both haloalkanes.
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PMID:Alterations of the microsomal glucose-6-phosphatase system evoked by ferrous iron- and haloalkane free-radical-mediated lipid peroxidation. 300 50

Female albino mice were fed sublethal doses of KCN (approx. 10 micrograms/mouse/day) for 7 days, injected intraperitoneally with phenobarbitone (50 mg/kg body wt/day) in the subsequent 3 days, and sacrificed 24 hr after the last injection. Phenobarbitone sleeping time was increasingly shortened (16-27%) daily in cyanide-fed mice in comparison with cyanide-free controls. Both compounds administered singly or simultaneously increased the liver weight/body weight ratios by not more than 10%. Aniline hydroxylase, glucose-6-phosphatase, NADPH- and NADH-cytochrome c reductase activities were similarly increased. Aniline hydroxylase activity was most markedly increased (by a factor of 4). The toxicological implications of these results are discussed.
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PMID:Hepatic effects of phenobarbitone in female mice fed sublethal levels of dietary cyanide. 302 73

Therapy with enzyme inducing drugs may improve glycemic control in patients with non-insulin-dependent diabetes mellitus. We evaluated the role of a mixed function oxidase system on glucose metabolism with an animal model. Rats were treated with an inducer (phenobarbital), an inhibitor (cimetidine) and a hepatotoxin (carbon tetrachloride) for a week to cause alterations in the liver. The mixed function oxidase system was assayed by determination of the cytochrome P-450 content and NADPH cytochrome c reductase in liver. Carbohydrate metabolism was evaluated by determining blood glucose, enzymes associated with glucose phosphorylation in the liver (glucokinase, hexokinase), glucose storage as glycogen and enzymatic delivery, glucose-6-phosphatase, and peripheral tissue by determining phosphorylating enzyme (hexokinase) and a key glycolytic enzyme (pyruvate kinase) and glycogen content in muscles. The therapy with the inducer enhanced glucose utilization in liver and storage in muscles. The inhibitor decreased the mixed function oxidase system, reduced glucose phosphorylating, but not gluconeogenetic enzymes, in the liver and increased glycolysis in muscles. Carbon tetrachloride, a hepatotoxin, impaired mixed function oxidase, glucose phosphorylating and delivering enzyme activity in liver, reduced blood glucose and caused glycogen accumulation in muscles. The function of liver microsomal enzyme system seems to be closely related to enzymatic glucose metabolism in the liver and muscles.
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PMID:Hepatic mixed function oxidase system and enzymatic glucose metabolism in rats. 304 Mar 22

Aniline hydroxylase, glucose-6-phosphatase, NADPH- and NADH-cytochrome C reductase activities were measured in liver microsomes prepared from four groups of female mice. Mice were fed either control diets alone or KCN (0.357, microgram/kg body wt/day) supplemented diets or control diets plus AFB1 (0.35 microgram/kg body wt/day) administration (ip) on the 8, 9 and 10th day or the KCN supplemented diet plus AFB, administration (ip) on the 8, 9 and 10th day. KCN and AFB1 consistently elevated the activities of the enzymes. Simultaneous administration of both toxins potentiated their effects on the enzymes with the exception of glucose-6-phosphatase. Increases in microsomal protein/liver wt ratios, liver wt/body wt ratios and these enzyme activities were probably indicative of microsomal enzyme induction.
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PMID:Effect of aflatoxin B1 on some liver microsomal enzymes in mice fed cyanide supplemented diets. 310 4

Lipid is first observed electron microscopically in the rough endoplasmic reticulum of intestinal epithelial cells during active lipid absorption. We have been able to isolate this subcellular fraction by using discontinuous sucrose gradients of 0.25/0.86/1.11 M sucrose. A preliminary low speed centrifugation of mucosal homogenate removed the heavier subcellular organelles. The resulting supernatant was centrifuged at 5.25 x 10(6) x g.min. The pellet from this centrifugation was placed on top of the gradient and the fractions isolated at the density interfaces after centrifugation at 25.5 x 10(6) x g.min. The isolated fractions were characterized enzymatically and electron microscopically. Electron microscopically, the fractions were predominantly composed of rounded vesicles decorated with ribosomes. Most contained lipid droplets whose diameters were 453 nm in the lighter membranes and 245 nm in the membranes isolated from the heavier density region. The vesicles contained NADPH cytochrome c reductase and glucose-6-phosphatase activity indicative of the presence of microsomes. Contamination with other subcellular organelles was minimal. These studies demonstrate a method which enables the isolation of vesicles containing chylomicron-sized particles which are from the earliest phase of chylomicron formation. Isolation of chylomicrons from these vesicles will enable a better understanding of the maturation process of chylomicrons as they traverse the intestinal epithelial cell.
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PMID:Isolation of the early phase of chylomicron formation in intestinal epithelial cells of rats. 314 19

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