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

Most neoplasms are dependent on glucose as their primary fuel, and their ambient glucose levels tend to be rather low owing to wasteful aerobic glycolysis and poor perfusion. Previous attempts to starve tumors by inducing hypoglycemia have foundered on the fact that the CNS and other tissues have high glucose requirements. Burt has proposed that, inasmuch as hypoglycemia-sensitive normal tissues can make efficient use of glycerol, whereas many or most cancers cannot, hypoglycemic cancer therapy may be feasible if glycerol is concurrently infused. Unfortunately, when Burt used 3-mercaptopicolinate to inhibit gluconeogenesis and thereby induce hypoglycemia in fasted tumor-bearing subjects, infused glycerol served as gluconeogenic substrate, raising the serum glucose level. Agents which inhibit gluconeogenesis more distally - namely at the level of glucose-6-phosphatase or of fructosediphosphatase - may prevent the gluconeogenic response to glycerol, making glycerol-rescued hypoglycemic therapy of cancer feasible. In fact, certain new drugs being developed for diabetes therapy - chlorogenic acid derivatives and 'compound A' - are potent inhibitors of glucose-6-phosphatase, and both AICA riboside and 2,5-anhydro-D-mannitol have potential as clinical inhibitors of fructosediphosphatase. Insulin also can inhibit gluconeogenesis, both proximally and distally, and can potentiate hypoglycemia by promoting muscle glucose uptake; thus, coinfusion of high-dose insulin and of glycerol may represent an alternative viable strategy. Further research along these lines may enable glycerol-rescued hypoglycemia to become a feasible cancer therapy that has particular value as a complement to antiangiogenic measures.
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PMID:Prospects for glycerol-rescued hypoglycemia as a cancer therapy. 1135 48

This study investigates the relationship between FDG uptake as determined by positron emission tomography (PET) imaging and rates of tumor growth, cellular GLUT1 transporter density, and the activities of hexokinase and glucose-6-phosphatase in a solid tumor implant model. Five different human colorectal xenografts of different growth properties were implanted in athymic rats and evaluated by dynamic (18)F-FDG-PET. The phosphorylating and dephosphorylating activities of the key glycolytic enzymes, hexokinase and glucose-6-phosphatase, were measured in these tumor types by spectrophotometric assays and the expression of GLUT1 glucose transporter protein was determined by immunohistochemistry. Correlations among FDG accumulation, hexokinase activity, and tumor doubling time are reported in these colon xenografts. The results indicate that the activity of tumor hexokinase may be a marker of tumor growth rate that can be determined by (18)F-FDG-PET imaging. PET scanning may not only be a useful tool for staging patients for extent of disease, but may provide important prognostic information concerning the proliferative rates of malignancies.
Neoplasia
PMID:Using positron emission tomography with [(18)F]FDG to predict tumor behavior in experimental colorectal cancer. 1149 12

The effect of Ehrlich ascites tumor cells, in vivo, on the hepatic glucose-6-phosphatase (G6Pase) system was examined. The V(max) for glucose 6-phosphate hydrolysis by G6Pase was reduced by 40% and a greater than 15-fold decrease in mRNA encoding the catalytic unit of the G6Pase system was observed 8 days after injection with tumor cells. Blood glucose concentration was decreased from 169 +/- 17 to 105 +/- 9 mg/dl in tumor-bearing mice. There was no change in the G6P transporter (G6PT) mRNA level. However, there was a significant decrease in G6P accumulation into hepatic microsomal vesicles derived from tumor-bearing mice. Decreased G6P accumulation was also associated with a decrease in G6Pase hydrolytic activity in the presence of vanadate, a potent catalytic-unit inhibitor. In addition, G6P accumulation was nearly abolished in microsomes treated with N-bromoacetylethanolamine phosphate, an irreversible inhibitor of the G6PT. These results demonstrate that the catalytic unit and G6PT components of the G6Pase system can be discriminantly regulated, and that microsomal glucose 6-phosphate uptake is dependent on catalytic unit activity as well as G6PT action.
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PMID:Discriminant responses of the catalytic unit and glucose 6-phosphate transporter components of the hepatic glucose-6-phosphatase system in Ehrlich ascites-tumor-bearing mice. 1151 68

Curcumin, a yellow pigment of turmeric (Curcuma longa), is a commonly used spice and a coloring agent in foods, drugs, and cosmetics. Curcumin is known to possess chemopreventive properties in various animal tumor models. In the present study the effect of curcumin on the development of altered hepatic foci (AHF), by using a medium term liver bioassay, has been evaluated. AHF were analyzed by quantitative stereology using the Leica Qwin Image Analysis system from frozen liver sections stained for g-glutamyl transferase, adenosine triphosphatase, glucose-6-phosphatase, alkaline phosphatase, and placental isozyme of glutathione S-transferase. A significant protection on diethylnitrosamine (DEN) initiated and 2-acetylaminofluorene (AAF) promoted AHF by curcumin was observed on these biological markers. The curcumin administration was found to restore the normal levels of the enzymes glutathione S-transferase and g-glutamyl transferase in rat liver following DEN-AAF exposure. Similarly, a significant protection was provided by curcumin in the enzyme-deficient foci for the adenosine triphosphatase-, alkaline phosphatase-, and glucose-6-phosphatase-treated groups in comparison to the DEN-AAF-treated group. These results show that curcumin can effectively suppress the DEN-induced development of AHF in rat liver.
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PMID:Suppression of altered hepatic foci development by curcumin in wistar rats. 1279 5

The glucostat method for the measurement of glucose released by glucose-6-phosphatase has been reexamined; it is accurate and sensitive enough to measure glucose-6-phosphatase activity in mouse ascites tumor cells. In seven different experiments, treatment with RNA from liver led to increases in enzyme activity varying between 125 to 200 percent. The activity of induced enzyme is optimum from pH 6 to 6.4.
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PMID:GLUCOSE-6-PHOSPHATASE: REEXAMINATION OF THE RNA-INDUCED ACTIVITY IN MOUSE ASCITES TUMOR CELLS. 1426 74

Caloric restriction down-regulates insulin secretion and systemic IGF-I activity, and there is reason to suspect that these effects are key mediators of caloric restriction's favorable impact on longevity. Alternative strategies for down-regulating these hormones are thus of great interest; chronic activation of AMP-activated kinase (AMPK)--clinically achievable with the drug metformin--may have utility in this regard. In the liver, AMPK slows hepatic glucose output by down-regulating expression of glucose-6-phosphatase and phosphoenolpyruvate carboxykinase; in skeletal muscle, it boosts the efficiency of insulin-stimulated glucose uptake by increasing expression of GLUT-4. These effects evidently mandate a down-regulation of insulin secretion. The resulting reduction of hepatic insulin activity can be expected to suppress hepatic production of IGF-I while boosting that of IGFBP-1, thereby decreasing plasma free IGF-I. AMPK can also directly stimulate IGFBP-1 synthesis in hepatocytes, and interfere with the ras/raf/erk pathway of IGF-I signaling. In non-diabetics, metformin therapy is indeed reported to reduce plasma levels of insulin and of free IGF-I; indeed, this is thought to be the mechanism whereby metformin suppresses excess androgen production in PCOS. A pro-longevity effect of the related biguanide phenformin has already been reported in tumor-prone mice, and mouse longevity studies with metformin are currently in progress. The development of AMPK activators which do not share metformin's modest risk of inducing lactic acidosis--apparently reflecting an inhibition of mitochondrial complex 1 that is not intrinsic to AMPK activity--might aid the practical applicability of this pro-longevity strategy.
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PMID:Chronic activation of AMP-activated kinase as a strategy for slowing aging. 1523 99

Mice bearing IL-1beta-secreting tumor were used to study the chronic effect of IL-1beta on glucose metabolism. Mice were injected with syngeneic tumor cells transduced with the human IL-1beta gene. Serum IL-1beta levels increased exponentially with time. Secretion of IL-1beta from the developed tumors was associated with decreased food consumption, reduced body weight, and reduced blood glucose levels. Body composition analysis revealed that IL-1beta caused a significant loss in fat tissue without affecting lean body mass and water content. Hepatic phosphoenolpyruvate carboxykinase and glucose-6-phosphatase activities and mRNA levels of these enzymes were reduced, and 2-deoxy-glucose uptake by peripheral tissues was enhanced. mRNA levels of glucose transporters (Gluts) in the liver were determined by real-time PCR analysis. Glut-3 mRNA levels were up-regulated by IL-1beta. Glut-1 and Glut-4 mRNA levels in IL-1beta mice were similar to mRNA levels in pair-fed mice bearing nonsecreting tumor. mRNA level of Glut-2, the major Glut of the liver, was down-regulated by IL-1beta. We concluded that both decreased glucose production by the liver and enhanced glucose disposal lead to the development of hypoglycemia in mice bearing IL-1beta-secreting tumor. The observed changes in expression of hepatic Gluts that are not dependent on insulin may contribute to the increased glucose uptake.
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PMID:Inhibition of hepatic gluconeogenesis and enhanced glucose uptake contribute to the development of hypoglycemia in mice bearing interleukin-1beta- secreting tumor. 1529 40

Our laboratory has shown previously that recombinant rainbow trout Ea4 (rtEa4)-peptide of pro-insulin-like growth factor-I (pro-IGF-I) exhibited antitumor activities against cancer cell lines derived from various human cancer tissues (Chen et al., 2002; Kuo and Chen, 2002). To confirm that rtEa4-peptide can exhibit the same spectrum of antitumor activities in fish tumor cells, we had developed permanent single-cell clones (RTH1B1A, RTH1B1D, RTH1B2A, and RTH1B2C) from a rainbow trout liver tumor induced by dibenzo[a,l]pyrene treatment. At 135 passages, the doubling time of these single-cell clones in CO2-independent medium at 20 degrees C was 3.9, 3.5, 3.0, and 4.5 d, respectively. Reverse transcription-polymerase chain reaction analysis showed that the expression of liver signature genes (e.g., aldolase B, glucose-6-phosphatase [G-6-Pase], phosphoenolpyruvate carboxykinase [PEPCK], hepatic nuclear factor-1 [HNF-I], IGF-I, IGF-II, and growth hormone [GH] receptor-2 genes) and CYP1A1 and CYP1A3 genes was detected in these four single-cell clones. Furthermore, results of in vitro colony formation assay in a soft-agar medium showed different degrees of colony formation activities among them. These results confirmed that the single-cell clones were derived from the rainbow trout liver. Treatment of RTH1B1D with recombinant trout Ea4-peptide resulted in the induction of a dose-dependent morphological change and the suppression of colony formation in a soft-agar medium. In addition, both morphological change and reduction of colony formation were also observed in permanent transfectants of RTH1B1D cells carrying a trout Ea4-peptide gene or its human counterpart, hEb-peptide gene. These results confirm our earlier observations that trout pre-IGF-I Ea4-peptide and hEb possess activities counteracting malignant properties of cancer cells in vitro.
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PMID:Development of rainbow trout hepatoma cell lines: effect of pro-IGF-I Ea4-peptide on morphological changes and anchorage-independent growth. 1531 63

There has been increasing interest in the value of using soybean to delay or reduce the tumor incidence. This study was undertaken to investigate the possible protective effects of soybean against hepatocarcinogenesis induced by DL-ethionine. Accordingly, we measured biochemical changes occurring in serum and liver of rats treated with DL-ethionine in the presence or absence of soybean. Male albino rats were fed a control diet containing the hepatocarcinogen, DL-ethionine, or the control diet plus soybean 30%, or the control diet plus soybean plus DL-ethionine 0.25% for three months and then returned to a control diet for up to nine months. Rats fed a control diet plus DL-ethionine showed a gradual decrease in liver DNA, RNA, total protein, and liver weight and enzyme activities of liver transaminases (GOT and GPT) and alkaline phosphatase over the 7-month study period. This was followed by a large increase in the liver parameters at the end of the 9(th) month, except for 5'-nucleotidase and glucose-6-phosphatase that showed a large decrease. On the other hand, a gradual increase in the serum enzyme activities of GOT, GPT, 5-nucleotidase, alkaline phosphatase, and in the albumin/globulin (A/G) ratio is observed in the group of rats fed a control diet plus DL-ethionine compared to the control group over 8 months, and this was followed by a large increase in all serum parameters studied at nine-months. The administration of 30% soybean to the rat diet in addition to DL-ethionine maintained all parameters studied at near control values until the end of the 9(th) month. This study suggests that soybean has a protective effect against the hepatocarcinogenesis induced by DL-ethionine.
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PMID:Protective effect of soybean against hepatocarcinogenesis induced by DL-ethionine. 1546 21

Connexin32 (Cx32) is the major gap junction forming protein in liver. Mice deficient in Cx32 demonstrate enhanced liver tumor formation, but are resistant to promotion of hepatocarcinogenesis by the model tumor promoter phenobarbital (PB). Here, we re-evaluate data on the number and sizes of glucose-6-phosphatase (G6Pase)-deficient liver lesions, both in Cx32-wildtype (WT) and Cx32-null male mice, obtained from two earlier experiments with similar protocols but paradoxical outcomes. In these experiments, enzyme-altered lesions were induced in mice of both strains by a single injection of N-nitrosodiethylamine (DEN) at age 6 weeks with a dose of 90 microg/g body weight (experiment 1) or at age 2 weeks with 10 microg/g body weight (experiment 2). Three weeks after DEN treatment groups of mice (sub-divided by Cx32 status) were also started on a PB-containing (0.05%) diet to test the responsiveness of the lesions to the tumor promoter. Additionally, for experiment 1, tumors were analyzed for the presence of Ha-ras and beta-catenin mutations. Based on the mutational analysis and the mathematical analysis of the G6Pase-deficient lesions, the two studies are consistent with the hypothesis of two types of lesions, 'late-type' lesions which are mainly characterized by beta-catenin mutations, and 'early-type' lesions that are frequently (but not exclusively) Ha-ras mutated. This concept affords an explanation as to the differential response seen in the two experiments with regard to Cx32 status and the role of PB as a tumor promoter (experiment 1) or inhibitor (as in experiment 2). Our findings also underscore the importance of the timing (6 weeks versus 2 weeks) of the genotoxic insult in relation to the developmental stage of the liver and the importance of clonal selection during tumor promotion.
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PMID:Modulation of liver tumorigenesis in Connexin32-deficient mouse. 1568 Apr 1


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