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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)

The role of phospholipids in the glucose-6-phosphatase system, including glucose-6-P phosphohydrolase and glucose-6-P translocase, was studied in rat liver microsomes by using phospholipases C and detergents. In the time course experiments on detergent exposure, the maximal activation of glucose-6-P phosphohydrolase varied according to the nature of the detergent used. On treatment of microsomes with phospholipase C of C. perfringens, the activity of glucose-6-P phosphohydrolase without detergent (i.e. without rupture of translocase activity) was gradually decreased with the progressive hydrolysis of phosphatidylcholine and phosphatidylethanolamine on the microsomal membrane, and was restored by incubation of these microsomes with egg yolk phospholipids. The extent of decrease in this phosphohydrolase activity in the detergent-exposed microsomes (with rupture of translocase activity) also varied depending on the detergent used (Triton X-114 or taurocholate). When 66% of the phosphatidylinositol on the membrane was hydrolyzed by phosphatidylinositol-specific phospholipase C of B. thuringiensis, the inhibition of glucose-6-P phosphohydrolase activity without detergent was very small. Although the inhibition of enzyme activity with detergent was apparently greater than that without detergent, the enzyme activity was stimulated by the breakdown of phosphatidylinositol when the enzyme activity was measured at lower concentration (0.5 mM) of substrate, glucose-6-P. The latency of mannose-6-P phosphohydrolase, a plausible index of microsomal integrity, remained above 70% after the hydrolysis of phosphatidylcholine, phosphatidylethanolamine, or phosphatidylinositol. The results show that the glucose-6-phosphatase system requires microsomal phospholipids for its integrity, suggesting that there exists a close relation between phosphatidylinositol and glucose-6-P translocase.
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PMID:Studies on the interactions between phospholipids and membrane-bound enzymes in microsomes. Effects of phospholipases C on the glucose-6-phosphatase system of rat liver microsomes. 630 98

We have compared the characteristics of glucose-6-phosphatase (EC 3.1.3.9) in the envelope of purified nuclei and microsomes from rat liver. The latency of mannose-6-P hydrolysis, permeability to EDTA, and susceptibility of the enzyme to protease-mediated inactivation all indicated that the permeability barrier defined by the envelope in situ is significantly disrupted in isolated nuclei (i.e. in vitro). Latency of mannose-6-P hydrolysis was demonstrated to provide a quantitative measure of the degree of nuclear membrane disruption. Electron micrographs confirmed the existence of substantial regions of the envelope in vitro where the permeability barrier to EDTA was intact (i.e. an "intact component"). The kinetics of glucose-6-phosphatase catalyzed by the intact component was obtained by subtracting the contribution of enzyme in disrupted regions from the total enzymic activity of untreated nuclei. The characteristics of glucose-6-phosphatase in intact and fully disrupted membranes of nuclei were indistinguishable from microsomes with respect to (a) the kinetics of glucose-6-P hydrolysis, (b) the effects of incubations with mannose-6-P, N-ethylmaleimide, and protease from Bacillus amyloliquefaciens, (c) the extremely high latency of carbamyl phosphate:glucose phosphotransferase activity, and (d) both the patterns of response of activity and the change in latency of glucose-6-phosphatase induced by fasting, experimental diabetes, and cortisol injection. Our results show clearly that apparent differences in the glucose-6-phosphatase activity of untreated preparations of nuclei and microsomes are simply expressions of significant differences in the degree of intactness of their respective permeability barriers. Since flattened cisternae, characteristic of the rough endoplasmic reticulum in situ, are preserved in intact regions of the envelope of isolated nuclei, the present findings constitute the most direct and definitive evidence to date that the properties of glucose-6-phosphatase in the endoplasmic reticulum in situ are faithfully reproduced with intact microsomes.
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PMID:The characteristics of liver glucose-6-phosphatase in the envelope of isolated nuclei and microsomes are identical. 631 70

n-Butyl and isoamyl alcohols decrease the steady-state fluorescence anisotropy of 1,6-diphenyl-1,3,5-hexatriene and enhance the efficiency of pyrene excimer formation when these probes are incorporated in rat-liver microsomal membrane, suggesting an increase in rotational and translational mobilities. Neither alcohol modifies NADH-ferricyanide reductase activity but both increase NADH-cytochrome c reductase activity. This was interpreted as an increase in the rate of lateral diffusion of the proteins cytochrome b5 and cytochrome b5 reductase as a consequence of the enhanced membrane lipid phase fluidity. Microsomal delta 9 and delta 6 desaturase activities in the presence of isoamyl alcohol were also studied. This alcohol decreases delta 9 desaturation when it is measured at a low substrate concentration (13 microM palmitic acid), but it is not modified when it is measured at a high substrate concentration (66 microM palmitic acid). delta 6 desaturation is diminished by isoamyl alcohol when it is measured with both 13 microM and 66 microM linoleic acid. The influence of isoamyl alcohol on the glucose-6-phosphatase system activity was also studied. In non-detergent-treated microsomes, isoamyl alcohol enhances glucose-6-phosphatase activity. However, if microsomes are previously treated with 0.1% Triton X-100 isoamyl alcohol does not modify this activity. The enhancement of the glucose 6-phosphate transport rate is not due to membrane permeability barrier disruption, since isoamyl alcohol does not modify mannose-6-phosphohydrolase latency. This would suggest that an increase in membrane lipid phase fluidity specifically activates glucose 6-phosphate transport across the membrane.
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PMID:Short-chain aliphatic alcohols increase rat-liver microsomal membrane fluidity and affect the activities of some microsomal membrane-bound enzymes. 631 21

A 5-year-old Black boy presented with massive hepatomegaly and muscle weakness. Liver biopsy revealed the presence of glycogen pools in the cytoplasm and nuclei of hepatocytes. Erythrocyte glycogen levels, identified as limit dextrin, were grossly increased. The galactose tolerance test as well as the two-stage glucagon stimulation test suggested a decrease in activity of both amylo-1,6-glucosidase and glucose-6-phosphatase enzymes. This was confirmed by direct assays performed on liver tissue and erythrocytes. The decrease in glucose-6-phosphatase activity was attributed to a secondary effect of limit dextrin.
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PMID:Glycogen storage disease type III. A case report. 632 Apr 74

To establish on a quantitative basis the subcellular distribution of the enzymes that glycosylate dolichyl phosphate in rat liver, preliminary kinetic studies on the transfer of mannose, glucose, and N-acetylglucosamine-1-phosphate from the respective (14)C- labeled nucleotide sugars to exogenous dolichyl phosphate were conducted in liver microsomes. Mannosyltransferase, glucosyltransferase, and, to a lesser extent, N- acetylglucosamine-phosphotransferase were found to be very unstable at 37 degrees C in the presence of Triton X-100, which was nevertheless required to disperse the membranes and the lipid acceptor in the aqueous reaction medium. The enzymes became fairly stable in the range of 10-17 degrees C and the reactions then proceeded at a constant velocity for at least 15 min. Conditions under which the reaction products are formed in amount proportional to that of microsomes added are described. For N- acetylglucosaminephosphotransferase it was necessary to supplement the incubation medium with microsomal lipids. Subsequently, liver homogenates were fractionated by differential centrifugation, and the microsome fraction, which contained the bulk of the enzymes glycosylating dolichyl phosphate, was analyzed by isopycnic centrifugation in a sucrose gradient without any previous treatment, or after addition of digitonin. The centrifugation behavior of these enzymes was compared to that of a number of reference enzymes for the endoplasmic reticulum, the golgi complex, the plasma membranes, and mitochondria. It was very simily to that of enzymes of the endoplasmic reticulum, especially glucose-6-phosphatase. Subcellular preparations enriched in golgi complex elements, plasma membranes, outer membranes of mitochondira, or mitoplasts showed for the transferases acting on dolichyl phosphate relative activities similar to that of glucose- 6-phosphatase. It is concluded that glycosylations of dolichyl phosphate into mannose, glucose, and N-acetylglucosamine-1-phosphate derivatives is restricted to the endoplasmic reticulum in liver cells, and that the enzymes involved are similarly active in the smooth and in the rough elements.
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PMID:Quantitative assay and subcellular distribution of enzymes acting on dolichyl phosphate in rat liver. 646 36

The relevance of our present findings should not rest on the possible role of mannose as an important teratogen in man. Excessive exposure to mannose during pregnancy via dietary intake seems unlikely since mannose is absorbed poorly from the gastrointestinal tract and intestinal hydrolysis of mannosidic linkages may be minimal. Moreover, although some plasma mannose may be generated continuously from endogenous sources via the cleavage of mannose-6-phosphate by hepatic glucose-6-phosphatase or mannosidic linkages by other hydrolases, our ongoing surveys have not uncovered any specimens of plasma or amniotic fluid containing mannose in amounts which could compete effectively with prevailing levels of glucose. Although we are continuing to monitor clinical samples for unusual mannose levels, we believe that the major significance of our experiences with this hexose pertains to its applications as a physiological tool for evaluating the metabolic determinants of early organogenesis. Within the above context, our findings must be viewed in relation to the known features of energy metabolism in the embryo during the interval that we have studied (Fig. 9). The classic studies of Shepherd and colleagues, similar findings by others, and more recent experiments in our own laboratory have indicated that glycolysis constitutes the chief energy source for the post-implantation embryo prior to the establishment of the yolk sac circulation on day 10 1/2. Almost all of the assimilated glucose goes to lactic acid, mitochondrial electron transfer is poorly developed, and oxidative metabolism via the Krebs' cycle is minimal. Meaningful Krebs' cycle activity does not become operative until day 10 1/2 and full expression is not found until the establishment of the allantoic circulation on day 11 (Fig. 9). The present experiences with mannose provide the first documentation of how precariously development is balanced during that transitory 9 1/2-10 1/2 day phase of organogenesis when glycolysis predominates. We have shown that even minor perturbations of glycolytic flux during that interval can result in major dysmorphogenic sequelae. Thus, the proposition by Kalter and Warkany that "any meaningful attempt to reduce infant mortality further will have to address the still unresolved causes of congenital malformations" prompts our speculation that major congenital lesions may result from relatively minor disturbances in glycolysis occurring prior to oxidative maturation in the embryo unit. Such effects on glycolysis during this vulnerable phase of embryogenesis could provide a common basis for the teratogenic actions of many unrelated and as yet unidentified agents.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The honeybee syndrome: teratogenic effects of mannose during organogenesis in rat embryo culture. 667 63

Baby hamster kidney (BHK) cells were infected with Semliki Forest virus (SFV) and, 2 h later, were treated for 4 h with 10 microM monensin. Each of the four to six flattened cisternae in the Golgi stack became swollen and separated from the others. Intracellular transport of the viral membrane proteins was almost completely inhibited, but their synthesis continued and they accumulated in the swollen Golgi cisternae before the monensin block. In consequence, these cisternae bound large numbers of viral nucleocapsids and were easily distinguished from other swollen cisternae such as those after the block. These intracellular capsid-binding membranes (ICBMs) were not stained by cytochemical markers for endoplasmic reticulum (ER) (glucose-6-phosphatase) or trans Golgi cisternae (thiamine pyrophosphatase, acid phosphatase) but were labeled by Ricinus communis agglutinin I (RCA) in thin, frozen sections. Since this lectin labels only Golgi cisternae in the middle and on the trans side of the stack (Griffiths, G., R. Brands, B. Burke, D. Louvard, and G. Warren, 1982, J. Cell Biol., 95:781-792), we conclude that ICBMs are derived from Golgi cisternae in the middle of the stack, which we term medial cisternae. The overall movement of viral membrane proteins appears to be from cis to trans Golgi cisternae (see reference above), so monensin would block movement from medial to the trans cisternae. It also blocked the trimming of the high-mannose oligosaccharides bound to the viral membrane proteins and their conversion to complex oligosaccharides. These functions presumably reside in trans Golgi cisternae. This is supported by data in the accompanying paper, in which we also show that fatty acids are covalently attached to the viral membrane proteins in the cis or medial cisternae. We suggest that the Golgi stack can be divided into three functionally distinct compartments, each comprising one or two cisternae. The viral membrane proteins, after leaving the ER, would all pass in sequence from the cis to the medial to the trans compartment.
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PMID:Dissection of the Golgi complex. I. Monensin inhibits the transport of viral membrane proteins from medial to trans Golgi cisternae in baby hamster kidney cells infected with Semliki Forest virus. 668 12

Continuous nocturnal intragastric feeding, combined with frequent daytime feedings, has been reported to improve both linear growth and the metabolic abnormalities in patients with glucose-6-phosphatase deficiency (Type I Glycogen Storage Disease). However, elevated blood levels of lactate have persisted. The present studies explore the relationship between blood lactate concentrations in six patients with glucose-6-phosphatase deficiency and variations in the rate and composition of the intragastric feeding. Blood lactate and plasma glucose concentrations were determined at rates of dextrose administration ranging from 3-34 mg/kg/min. Dextrose infusion at 100-200% of estimated normal glucose production rates gave the best control of blood lactate concentrations. Lower rates of dextrose infusion resulted in significantly higher blood lactate levels; higher rates produced hyperglycemia, but no significant further reduction of blood lactate. At identical rates of glucose administration, a dextrose-containing infant formula and a high carbohydrate enteric feeding solution gave no significant improvement in control of blood lactate levels compared to dextrose alone. Plasma glucose levels fell more rapidly when intragastric feeding was stopped than after a mixed meal and hypoglycemia appeared to develop before counter-regulatory responses could be mobilized. These observations may account for the increased susceptibility to symptomatic hypoglycemia reported in patients treated with intragastric feeding.
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PMID:Intragastric feeding in type I glycogen storage disease: factors affecting the control of lactic acidemia. 679 37

Effects of exercise regimens on the enzyme histochemical changes of articular chondrocytes of the humeral heads in adult shepherd-type dogs were studied. One group of 4 dogs was exercised by walking on a flat surface 5 days a week for 6 months. A 2nd group of 4 dogs was exercised under the same conditions, except that the dogs were forced to walk over platforms placed in their path. Three control dogs were exercised ad libitum in their housing area. In all dogs, the reactivity of lactic acid dehydrogenase was quite strong nicotinamide dinucleotide dehydrogenase was moderate, and glucose-6-phosphatase was week. Succinic acid dehydrogenase uridine diphosphate (UDP)-galactose-4-epimerase, and UDP-N-acetylglucosamine-4-epimerase were of weakly moderate staining reactivity. Consistent regional or laminar variability was not found among the chondrocytic populations of the exercised and control groups for the reactivity of the enzymes studied. However, regional and/or laminar variabilities in individuals of the experimental groups were identified. The weak reactivity of glucose-6-phosphatase as seemingly contradictory to the presence of intracellular lipids of adult articular chondrocytes. Lipid synthesis was suggested as a mechanism to store excessive quantities of hydrogen ions in an innocuous form, rather than in the potentially deleterious by-product of anaerobic glycolysis, lactic acid.
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PMID:Effects of exercise on the histochemical changes of articular chondrocytes in adult dogs. 680 69

A model of maternal lipemia without hyperglycemia, in the rat, produced by high-fat feedings, was developed to study the effects of and abnormal maternal lipid homeostasis on placental transport of nutrients and possible alterations of key enzymes of energy metabolism in the liver and brain of the fetuses. Pregnant rats fed lower concentrations of fat served as controls. All studies were carried out in dams and fetuses one day prior to delivery. The dietary treatment of the dams and fetuses produced in the fetuses ketonemia as well as lipemia. Following a bolus of 14C-3-0-methyl-D-glucose to the dams, the levels of the tracer remained higher in the blood and brain of lipemic than in control fetuses. By contrast, there was a decrease in the fluxes of 14C-alpha-amino-isobutyric acid in the fetuses of lipemic dams as compared to controls. Among enzymes of energy metabolism, fetal liver glucose-6-phosphatase and succinic dehydrogenase were enhanced by lipemia. Fetal brain glucose-6-phosphatase was depressed. Thus, lipemia, as occurring in poorly controlled maternal diabetes, may be a factor in determining the access to the fetus of essential, neutral amino acids and alter the normal activity of energy metabolism enzymes in the fetus.
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PMID:Placental permeability and energy metabolism enzymes in fetuses of lipemic rats. 710 47


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