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)

Oral administration of embelin (75 mg/kg per day, daily for 15 and 30 days) to male rats caused significant elevation in the uptake of D-glucose, L-alanine, L-leucine and calcium in small intestinal segments. Embelin also produced significant increases in intestinal brush border membrane-associated enzymes (sucrase, lactase, maltase, alkaline phosphatase and leucine aminopeptidase) in both intestinal homogenates and partially purified brush border membrane preparations. Significant increases were also noted for microsomal glucose-6-phosphatase and cytosolic lactate dehydrogenase. Increase in brush border membrane-associated total lipids, phospholipids, cholesterol, triacylglycerol, unesterified fatty acids and ganglioside sialic acid were seen but not in the cholesterol/phospholipid molar ratio. All these changes returned to control or near control levels following withdrawal of the drug.
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PMID:Effects of embelin, a male antifertility agent, on absorptive and digestive functions of rat intestine. 192 15

The relative contribution of each anomer of D-glucose to the overall phosphorylation rate of the hexose tested at anomeric equilibrium was examined in rat liver postmicrosomal supernatants under conditions aimed at characterizing the activity of glucokinase, with negligible interference of either hexokinase, N-acetyl-D-glucosamine kinase or glucose-6-phosphatase (acting as a phosphotransferase). Both at 10 degrees and 30 degrees C, the relative contribution of each anomer was unaffected by the concentration of D-glucose. At both temperatures, the alpha/beta ratio for the contribution of each anomer was slightly, but significantly, lower than the alpha/beta ratio of anomer concentrations. These findings, which are consistent with the anomeric specificity of glucokinase in terms of affinity, cooperativity and maximal velocity, reveal that the preferred alpha-anomeric substrate for both glycogen synthesis and glycolysis is generated by glucokinase at a lower rate than is beta-D-glucose-6-phosphate.
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PMID:Phosphorylation by liver glucokinase of D-glucose anomers at anomeric equilibrium. 206 35

Administration of Embelin, an experimental antifertility agent, to male rats (20 mg/kg body wt/day, daily for 15 and 30 days), caused an elevation in the uptake of D-glucose, L-alanine, L-leucine, and calcium in the small intestinal segments. An increase was also noted in the intestinal brush border membrane (BBM)-associated enzymes, sucrase, lactase, maltase, alkaline phosphatase, and leucine aminopeptidase in both the intestinal homogenates and partially purified BBM preparations, particularly after 30-day administration of the drug. Embelin treatment also caused a significant increase in the microsomal glucose-6-phosphatase and the cytosolic enzyme, lactate dehydrogenase. In the Embelin-treated animals BBM-associated total lipids, phospholipids, cholesterol, triacylglycerol, unesterified fatty acids, ganglioside-sialic acids as well as the cholesterol/phospholipids molar ratio showed a considerable increase. All these changes in the Embelin-treated animals were restored back to the normal or near normal biochemical makeup when the drug therapy was withdrawn and the animals were allowed to recover for another 15 and 30 days, respectively.
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PMID:Changes in glucose/amino acid/calcium uptake and brush-border membrane-associated enzymes in rat small intestine after the administration of embelin (plant benzoquinone), an antifertility agent. 211 47

The thermal stability of glucose-6-phosphatase in rat liver microsomes was examined in untreated and cholate-treated microsomes. Activity of the enzyme was measured with both glucose-6-P and mannose-6-P as substrates. Heat treatment did not cause glucose-6-phosphatase activity to decline to zero with a single rate constant in untreated microsomes. Instead, heat treatment produced an enzyme with a small residual activity that was stable. The residual level of activity was not stimulated by addition of detergent. In untreated microsomes the energies of activation for the processes of decay were different for glucose-6-phosphatase and mannose-6-phosphatase activities, suggesting that the rate-limiting steps for the hydrolysis of these compounds were different. Treatment of microsomes with detergent increased the rate constants for the thermal decay of glucose-6-phosphatase by about 150 times, and, in contrast to untreated microsomes, glucose-6-phosphatase and mannose-6-phosphatase decayed to zero with a single rate constant in cholate-treated microsomes. Also, rate constants for thermal inactivation of glucose-6-phosphatase and mannose-6-phosphatase were the same in cholate-treated microsomes. Removal of cholate increased the stability of glucose-6-phosphatase but did not regenerate the form of the enzyme present in untreated microsomes. The data for the stability of glucose-6-phosphatase under different conditions provide evidence that the enzyme can exist in at least five different stable states that are enzymatically active.
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PMID:Thermal stability of microsomal glucose-6-phosphatase. 215 19

Apolipoprotein B (apoB), a protein containing several hydrophobic beta-sheet structures, is essential for the assembly of triglyceride-rich lipoproteins. Previously, we found that only a fraction of de novo synthesized apoB is secreted; the remainder is retained in the endoplasmic reticulum where it is degraded. To understand the basis for these observations, translocation, the first step in the secretory pathway, was examined. Translocation of apoB was determined by its sensitivity to degradation by the exogenous protease, trypsin. In rough microsomes, about half of the apoB was degraded by trypsin. In contrast, in Golgi fractions little (if any) apoB was accessible to trypsin. Essentially all of the apoB that was degraded was membrane bound. Monoclonal IgGs against either the N-terminal or C-terminal halves of apoB were bound to magnetic beads and used to immunoisolate microsomes. In contrast to the specific ability of the IgGs against apoB to isolate microsomes, little or no microsomes were isolated using nonimmune IgG and IgG against albumin. Since microsomes remained intact and oriented right-side out as demonstrated by the inability of trypsin both to degrade albumin and to affect the capacity of the intralumenal enzyme glucose-6-phosphatase to dephosphorylate mannose 6-phosphate, the data suggest that a pool of apoB is exposed on the cytoplasmic surface of the endoplasmic reticulum membrane. To determine if the trypsin-accessible pool of apoB is a transient form, pulse-chase experiments were performed. The results show that the percent of apoB that was trypsin accessible increased during the first 20 min of the chase, suggesting that during this time the trypsin-accessible pool of apoB is not translocated (it does not become trypsin insensitive). Thus, in two in vivo models (cultured cells and rat liver) translocation of apoB is not quantitative. We propose that apoB translocation across the endoplasmic reticulum determines its entry into two functionally distinct pools. The intralumenal trypsin-insensitive pool participates in the assembly of very low density lipoprotein; the trypsin-accessible nontranslocated cytoplasmic pool is shunted into a degradative pathway. Regulated translocation of apoB may provide a unique mechanism with which to determine the rate of very low density lipoprotein assembly/secretion.
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PMID:Apolipoprotein B is both integrated into and translocated across the endoplasmic reticulum membrane. Evidence for two functionally distinct pools. 216 29

The effect of varying concentrations of free Ca2+ on the formation of Pi from mannose-6-P or of Pi and [U-14C]glucose from [U-14C]glucose-6-P was investigated in isolated fasted rat hepatocytes made permeable by freezing and in liver microsomes. Free Ca2+ concentration was adjusted by the use of Ca-EGTA buffers. In permeabilized cells, glucose-6-phosphatase (EC 3.1.3.9) activity was inhibited up to 50% and in intact microsomes up to 70% by increasing free Ca2+ concentrations from 0.01 to 10 microM. The inhibition was reversible and competitive with respect to glucose-6-P. Treatment of microsomes with 0.4% deoxycholate exposed 90% of latent mannose-6-phosphatase activity which was insensitive to Ca2+. The results indicate that Ca2+ affects the glucose-6-P translocase rather than the phosphohydrolase component. It is concluded that the glucose-6-phosphatase system is modulated by changes in Ca2+ concentrations in the range of those occurring in the liver cell upon hormonal stimulation.
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PMID:Liver glucose-6-phosphatase activity is modulated by physiological intracellular Ca2+ concentrations. 253 66

Radiation inactivation analysis was utilized to estimate the sizes of the units catalyzing the various activities of hepatic microsomal glucose-6-phosphatase. This technique revealed that the target molecular weights for mannose-6-P phosphohydrolase, glucose-6-P phosphohydrolase, and carbamyl-P:glucose phosphotransferase activities were all about Mr 75,000. These results are consistent with the widely held view that all of these activities are catalyzed by the same protein or proteins. Certain observations indicate that the molecular organization of microsomal glucose-6-phosphatase is better described by the conformational hypothesis which envisions the enzyme as a single covalent structure rather than by the substrate transport model which requires the participation of several physically separate polypeptides. These include the findings: 1) that the target sizes for glucose-6-P phosphohydrolase and carbamyl-P:glucose phosphotransferase activities were not larger than that for mannose-6-P phosphohydrolase in intact microsomes and 2) that the target size for glucose-6-P phosphohydrolase in disrupted microsomes was not less than that observed in intact microsomes. These findings are most consistent with a model for glucose-6-phosphatase of a single polypeptide or a disulfide-linked dimer which spans the endoplasmic reticulum with the various activities of this multifunctional enzyme residing in distinct protein domains.
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PMID:Radiation inactivation analysis of rat liver microsomal glucose-6-phosphatase. 254 Jan 73

The anomeric specificity of D-glucose phosphorylation by hepatic glucose-6-phosphatase was examined in rat liver microsomes incubated in the presence of carbamoyl phosphate. At 10 degrees C, the Km for the equilibrated hexose and phosphate donor was close to 56 mM and 11 mM, respectively. The enzymic activity, which was increased in diabetic rats, was about 40% lower in untreated than in sonicated microsomes. No anomeric difference in affinity was found in sonicated microsomes. In untreated microsomes, however, the Km for beta-D-glucose was slightly lower than that for alpha-D-glucose. The maximal velocity was higher with beta- than alpha-D-glucose in both untreated and sonicated microsomes. These data indicate that the phosphotransferase activity of glucose-6-phosphatase cannot account for the higher rate of glycolysis and glycogen synthesis found in hepatocytes exposed to alpha- rather than beta-D-glucose.
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PMID:Anomeric specificity of D-glucose phosphorylation by rat liver glucose-6-phosphatase. 254 74

The concentrations of NAD and NADP have been determined in detergent extracts of washed rat liver microsomes. Precautions were taken during the preparation of the microsomes to remove nicotinamide nucleotides from their external surface both by hydrolysis by nucleotide pyrophosphatase (EC 3.6.1.9) and by washing them three times in 0.15 M-Tris/HCl, pH 8.0, to remove soluble proteins which bind these nucleotides. The mannose phosphatase was essentially completely latent, indicating that the microsomes were intact. Assuming these nucleotides are in the cisternae of the microsomes, the concentrations in the cisternae are 240 +/- 25 microM-NAD and 55 +/- 12 microM-NADP. These levels of nucleotides are compatible with both the glucose:NAD+ and the glucose 6-phosphate:NADP+ oxidoreductase activities of hexose phosphate dehydrogenase (EC 1.1.1.47). Since the organ and subcellular distributions of this dehydrogenase and glucose-6-phosphatase are similar, and Pi stimulates the glucose:NAD+ oxidoreductase activity, it is proposed that the combined action of these two enzymes leads to the reduction of both coenzymes in the lumen of the endoplasmic reticulum. A modification of the colorimetric method of Nisselbaum & Green [(1969) Anal. Biochem. 27, 212-217] for the determination of NADP+ is described. Colour formation is linear with the concentration of NADP+ and is sensitive to less than 0.3 nmol of NADP+.
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PMID:The levels of nicotinamide nucleotides in liver microsomes and their possible significance to the function of hexose phosphate dehydrogenase. 282 15

Rat liver microsomes are known to contain a 6-phosphogluconate dehydrogenase which differs from the 6-phosphogluconate dehydrogenase in the soluble fraction. Microsomes which were washed once bind the soluble phosphogluconate dehydrogenase more tightly than they do glucose-6-phosphate dehydrogenase. Microsomes washed three times in 0.15 M Tris-HCl, pH 8.0, contain only the microsomal 6-phosphogluconate dehydrogenase. Two observations show that this dehydrogenase is located in the cisternae. First, this dehydrogenase is inactive in intact, three times washed microsomes. Second, proteolytic inactivation of 6-phosphogluconate dehydrogenase like that of the cisternal enzyme glucose-6-phosphatase requires disruption of the membrane. Under the conditions used, detergent did not affect the proteolytic inactivation of NADPH-cytochrome c reductase, an enzyme located on the external surface. The excellent correspondence between the activations of hexose phosphate dehydrogenase and 6-phosphogluconate dehydrogenase in microsomes at various stages of disruption of the microsomal membrane produced by detergent supports the earlier contention that these two dehydrogenases are reducing NADP in the same region of the microsomes. A similar experiment which shows an exact correspondence between the activations of 6-phosphogluconate dehydrogenase and mannose-6-phosphatase with increasing concentrations of detergent indicates that the activation of the dehydrogenase can be explained solely by the penetration of the substrates to the active dehydrogenase within the microsomes and strongly suggests that the dehydrogenase is catalytically active in the cisternae.
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PMID:The topology of phosphogluconate dehydrogenases in rat liver microsomes. 282 99


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