EC:2.7.1.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.1.1 (hexokinase)
5,274 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Renal clear cell tubules and clear/acidophilic cell tumors were induced in male Sprague-Dawley rats by 7 weeks oral administration (stop model) of N-nitrosomorpholine (NNM) at a concentration of 12 mg/100 ml in the drinking water. Twelve, 23 and 34 weeks after withdrawal of NNM serial cryostat sections of the kidneys were histochemically analyzed for the following parameters: glucose transporter proteins (GLUT1, GLUT2), glycogen content and the activities of glycogen synthase (SYN), glycogen phosphorylase (PHO), glucose-6-phosphatase (G6Pase), glucose-6-phosphate dehydrogenase (G6PDH), hexokinase (HK), glyceraldehyde-3-phosphate dehydrogenase (GAPDH), pyruvate kinase (PK), succinate dehydrogenase (SDH), malate dehydrogenase (MDH), alkaline phosphatase (ALP), acid phosphatase (ACP) and gamma-glutamyltransferase (GGT). Clear cell (glycogenotic) tubules first appeared at 23 weeks, and clear/acidophilic cell tumors at 34 weeks after withdrawal of the carcinogen. G6Pase, ALP, GGT and GLUT2 were absent in clear cell tubules, clear/acidophilic cell tubules, and clear/acidophilic cell tumors indicating a sequential origin of all these types of lesions from the collecting duct system, in line with previous morphological findings. In comparison to the collecting duct epithelium, glycogenotic tubules demonstrated an increased activity of PHO and reduced activities of glycolytic and mitochondrial enzymes, which were accompanied by a strongly reduced expression of GLUT1. Moderately increased activities of glycolytic and mitochondrial enzymes were observed in the clear cells of clear/acidophilic cell tubules and tumors compared with those in glycogenotic tubules. They had slightly increased activities of the glycolytic enzymes GAPDH and PK compared with normal collecting duct epithelium, while most of them were nearly lacking in GLUT1. Our findings suggest that glycogen storage is not due to an increased uptake of glucose from the blood, but results from a disturbance in intracellular flux of metabolites. The development of clear cell tubules from the normal collecting duct epithelium is accompanied by a markedly decreased expression of GLUT1 along with a reduction in glycolytic and mitochondrial enzymes. This reduction of enzyme activities is replaced by an increase in enzyme activities in clear/acidophilic cell tumors indicating a fundamental shift in carbohydrate metabolism during progression from preneoplastic to neoplastic lesions.
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PMID:Sequential changes in glycogen content, expression of glucose transporters and enzymic patterns during development of clear/acidophilic cell tumors in rat kidney. 147 41

The product of the c-myc proto-oncogene (c-Myc) is involved in the control of cell proliferation, differentiation, and apoptosis. It acts as a transcription factor that recognizes the CACGTG motif. This sequence has also been found in the glucose-responsive elements of genes involved in the control of liver glycolysis and lipogenesis. To determine whether c-Myc can regulate hepatic carbohydrate metabolism in vivo, transgenic mice that overexpress c-myc under control of the P-enolpyruvate carboxykinase (PEPCK) gene promoter have been generated. These mice showed a threefold increase in c-Myc protein in liver nuclei. Hepatocytes from transgenic mice were normal and did not acquire the fetal phenotype. However, transgenic mice showed higher levels (threefold) of L-type pyruvate kinase mRNA and enzyme activity than control mice. The increase in pyruvate kinase activity led to a three- to fivefold increase in liver lactate content and a fivefold induction of lactate production by hepatocytes in primary culture. The expression of the 6-phosphofructo-2-kinase gene was also increased in the liver of these transgenic mice. The induction of hepatic glycolysis was related with an increase in the expression (about fourfold) and activity (about threefold) of liver glucokinase, whereas no change was noted in hexokinase-I. This change in glucokinase activity led to an increase in both glucose 6-phosphate and glycogen contents in the liver of transgenic mice. The expression of the liver-specific glucose transporter GLUT2 was also increased in transgenic mice, whereas no change was noted in the mRNA concentration of GLUT1. Furthermore, the changes of liver glucose metabolism led to a marked reduction of blood glucose (25%) and insulin (40%) concentrations in starvation, whereas the fall in both was only 10% in fed mice. Thus, liver glucose metabolism could determine the blood glucose and insulin set points in the transgenic mice. All these results indicated that the increase in c-Myc protein was able to induce liver glucose utilization and accumulation, and suggested that c-Myc transcription factor is involved in the control in vivo of liver carbohydrate metabolism.
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PMID:Evidence from transgenic mice that myc regulates hepatic glycolysis. 764 6

Sequential changes in the expression of two glucose transporter isoforms (GLUT1, GLUT2), and in the activities of hexokinase, pyruvate kinase and malic enzyme during the development of rat renal basophilic cell tumors were studied using histochemical techniques. Early basophilic cell tubules are similar to proximal convoluted tubules (PCT) in their overall histochemical pattern, particularly in the expression of glucose transporters, suggesting that basophilic cell tubules and tumors derived from them arise from PCT. In comparison with PCT, basophilic cell tubules show slightly increased activities of all the enzymes studied. In basophilic cell tumors, markedly elevated hexokinase and pyruvate kinase activities are accompanied by a considerable reduction in the expression of GLUT2. GLUT1 expression is not found in basophilic cell tubules or PCT. Small basophilic cell tumors also do not express GLUT1, but GLUT1 is regularly expressed in several cell layers surrounding necrotic areas within large basophilic cell tumors. Our results indicate that increased glycolytic activity and reduced GLUT2 expression take place during the development of renal basophilic cell tumors.
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PMID:Expression of glucose transporter isoforms (GLUT1, GLUT2) and activities of hexokinase, pyruvate kinase, and malic enzyme in preneoplastic and neoplastic rat renal basophilic cell lesions. 768 99

Renal oncocytomas, which have previously been shown to originate from the collecting duct system, were induced in male Sprague-Dawley rats by oral administration of N-nitrosomorpholine (NNM) for 7 weeks. The expression of glucose transporter isoforms GLUT1 and GLUT2, and of several enzymes involved in glucose metabolism [hexokinase (HK), pyruvate kinase (PK), lactate dehydrogenase (LDH), malate dehydrogenase (MDH)] were studied by cytochemical approaches in serial cryostat sections of the kidney 12, 23 and 34 weeks after withdrawal of NNM. Oncocytic tubules connected with collecting ducts were first observed 23 weeks, and oncocytomas 34 weeks after withdrawal. The cytochemical pattern of oncocytic tubules and oncocytomas was similar, but differed markedly from that of normal collecting ducts in nearly all variables studied; expression of GLUT1 and hexokinase I proteins were strongly increased; activities of HK, PK and MDH were elevated, while LDH activity was reduced. These results suggest that oncocytic transformation is associated with fundamental changes in energy metabolism which differ from those in cell lineages leading to other types of renal cell tumours, such as clear/acidophilic and basophilic cell tumours. The characteristic over-expression of GLUT1 may be used as a diagnostic criterion for the discrimination between oncocytes and acidophilic (granular) cells in clear/acidophilic renal cell tumours which show a reduced expression of this glucose transporter protein.
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PMID:Over-expression of glucose transporter isoform GLUT1 and hexokinase I in rat renal oncocytic tubules and oncocytomas. 792 15

A number of pancreatic beta-tumor cell (beta TC) lines have been derived from insulinomas arising in transgenic mice expressing the SV40 T antigen gene under control of the insulin promoter. Some of these lines secrete insulin in response to physiological glucose concentrations. However, this phenotype is unstable. After propagation in culture, these nonclonal lines become responsive to subphysiological glucose levels and/or manifest reduced insulin release. Here we report the use of soft-agar cloning to isolate single-cell clones from a beta TC line, which give rise to sublines that maintain correct glucose responsiveness and high insulin production and secretion for > 55 passages (over a year) in culture. One of these clonal lines, denoted beta TC6-F7, was characterized in detail. beta TC6-F7 cells expressed high glucokinase and low hexokinase activity, similarly to normal islets. In addition, they expressed mRNA for the GLUT2 glucose transporter isotype and no detectable GLUT1 mRNA, as is characteristic of normal beta-cells. These results demonstrate that transformed beta-cells can maintain a highly differentiated phenotype during prolonged propagation in culture, which has implications for the development of continuous beta-cell lines for transplantation therapy of diabetes.
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PMID:Clonal insulinoma cell line that stably maintains correct glucose responsiveness. 795 92

The insulin-secretory response to glucose is defective in the RINm5F insulin-producing tumour cell line. Stable transfection with human low-affinity GLUT2 glucose-transporter cDNA revealed a significant improvement in stimulus-secretion coupling in these insulinoma cells. 3-O-Methylglucose uptake increased 10-fold in the concentration range 10-20 mM, whereas non-transfected control cells were unresponsive. Northern-blot analysis revealed a 7-fold increase in expression of the insulin gene in the GLUT2-transfected RINm5F cell clone T1. In contrast, glucokinase and GLUT1 glucose-transporter mRNA gene expression were not affected by transfection with GLUT2 glucose-transporter cDNA. The insulin content of transfected RINm5F cells was 7-fold higher after tissue culture at high glucose concentrations than in non-transfected controls. GLUT2-transfected RINm5F cells also regained insulin-secretory responsiveness toward high glucose concentrations. Tissue culture for 72 h in 20 mM glucose induced glucokinase activity in the GLUT2-transfected RINm5F clone T1, raising the glucokinase/hexokinase phosphorylation ratio from 0.2 to 0.6. The experiments demonstrate that an increased glucose uptake via a low-affinity glucose transporter and an increased metabolic flux rate are important factors in the induction of insulin-gene expression and glucokinase activity and thus improved glucose-induced biosynthesis and secretion of insulin in RINm5F insulinoma cells.
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PMID:Insulin secretion, insulin content and glucose phosphorylation in RINm5F insulinoma cells after transfection with human GLUT2 glucose-transporter cDNA. 825 Aug 30

Rat beta-cells differ in their individual rates of glucose-induced insulin biosynthesis and release. This functional heterogeneity has been correlated with intercellular differences in metabolic redox responsiveness to glucose. The present study compares glucose metabolism in two beta-cell subpopulations that have been separated on the basis of the presence (high responsive) or absence (low responsive) of a metabolic redox shift at 7.5 mM glucose. Mean rates of glucose utilization and glucose oxidation in high responsive beta-cells were 2- to 4-fold higher than in low responsive beta-cells, whereas their leucine and glutamine oxidation was only 10-50% higher. This heterogeneity in glucose metabolism cannot be attributed to differences in GLUT2 mRNA levels or in glucose transport. In both cell subpopulations, the rates of glucose transport (13-19 pmol/min/10(3) beta-cells) were at least 50-fold higher than corresponding rates of glucose utilization. On the other hand, rates of glucose phosphorylation (0.3-0.7 pmol/min/10(3) beta-cells) ranged within those of total glucose utilization (0.2-0.4 pmol/min/10(3) beta-cells). High responsive beta-cells exhibited a 60% higher glucokinase activity than low responsive beta-cells and their glucokinase mRNA level was 100% higher. Furthermore, glucose phosphorylation via low Km hexokinase was detected only in the high responsive beta-cell subpopulation. Heterogeneity in glucose sensitivity among pancreatic beta-cells can therefore be explained by intercellular differences in glucose phosphorylation rather than in glucose transport.
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PMID:Heterogeneity in glucose sensitivity among pancreatic beta-cells is correlated to differences in glucose phosphorylation rather than glucose transport. 833 3

Pancreatic beta TC lines derived from insulinomas arising in transgenic mice expressing SV40 Tag under control of the insulin promoter manifest a differentiated beta-cell phenotype and secrete insulin in response to glucose. Previously reported beta TC lines respond to subphysiological extracellular glucose levels compared with normal beta-cells. Recently, several beta TC lines were developed with normal glucose-regulated insulin secretion from insulinomas obtained by breeding of the RIP-Tag transgene from the original C57BI/6 mouse strain into the C3HeB/FeJ strain. One of these beta TC lines, beta TC7, was characterized in detail. Beta TC7 cells express GLUT2 and have levels of glucokinase and hexokinase activity similar to those of normal islets. As a result these cells exhibit a normal glucose concentration dependency for glycolysis and insulin secretion, thus representing an accurate model of beta-cell function. On continuous propagation in culture, beta TC7 cells acquired a response to lower extracellular glucose levels. This change was associated with a fourfold increase in hexokinase activity, without significant changes in glucokinase activity and glucose uptake rates. These findings suggest an important role for glucose phosphorylation rates in regulation of the beta-cell insulin secretory response to glucose.
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PMID:Murine insulinoma cell line with normal glucose-regulated insulin secretion. 849 13

Previous studies have shown that glucose increases the glucose transporter (GLUT2) mRNA expression in the liver in vivo and in vitro. Here we report an analysis of the effects of glucose metabolism on GLUT2 gene expression. GLUT2 mRNA accumulation by glucose was not due to stabilization of its transcript but rather was a direct effect on gene transcription. A proximal fragment of the 5' regulatory region of the mouse GLUT2 gene linked to a reporter gene was transiently transfected into liver GLUT2-expressing cells. Glucose stimulated reporter gene expression in these cells, suggesting that glucose-responsive elements were included within the proximal region of the promoter. A dose-dependent effect of glucose on GLUT2 expression was observed over 10 mM glucose irrespective of the hexokinase isozyme (glucokinase K(m) 16 mM; hexokinase I K(m) 0.01 mM) present in the cell type used. This suggests that the correlation between extracellular glucose and GLUT2 mRNA concentrations is simply a reflection of an activation of glucose metabolism. The mediators and the mechanism responsible for this response remain to be determined. In conclusion, glucose metabolism is required for the proper induction of the GLUT2 gene in the liver and this effect is transcriptionally regulated.
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PMID:Requirement of glucose metabolism for regulation of glucose transporter type 2 (GLUT2) gene expression in liver. 861 87

A novel insulin-secreting cell line (BRIN-BD11) was established after electrofusion of RINm5F cells with New England Deaconess Hospital rat pancreatic islet cells. Wells of cell fusion mixture with insulin output 5-10 times greater than parent RINm5F cells were subcultured with eventual establishment of clones, including BRIN-BD11. Morphological studies established that these cells grow as monolayers with epithelioid characteristics, maintaining stability in tissue culture for > 50 passages. Culture of these cells for 24 h at 5.6-33.3 mmol/l glucose revealed a 1.8- to 2.0-fold increase of insulin output compared with 1.4 mmol/l glucose. Dynamic insulin release was recorded in response to 16.7 mmol/l glucose, resulting in a rapid threefold insulin secretory peak followed by a sustained output slightly above basal. In acute 20-min tests, 4.2-16.7 mmol/l glucose evoked a stepwise two- to three-fold stimulation of insulin release. 3-Isobutyl-1-methylxanthine (1 mmol/l) served to increase basal and glucose-stimulated insulin release, shifting the threshold from 4.4 to 1.1 mmol/l glucose. Stimulation of insulin secretion with 16.7 mmol/l glucose was abolished by mannoheptulose or diazoxide (15 or 0.5 mmol/l). In contrast, glyceraldehyde (10 mmol/l) and 25 mmol/l K+ evoked 1.7- to 9.0-fold insulin responses. L-Alanine (10 mmol/l) evoked a twofold secretory response, which was potentiated 1.4-fold by increasing the Ca2+ concentration from 1.28 to 7.68 mmol/l. Forskolin (25 mumol/l) and phorbol 12-myristate 13-acetate (10 nmol/l) both increased insulin secretion in the presence of L-alanine (1.4- and 1.8-fold, respectively). Western blotting confirmed that BRIN-BD11 cells expressed the GLUT2 glucose transporter. This, coupled with a high glucokinase/hexokinase ratio in the cells, confirms an intact glucose sensing mechanism. High-performance liquid chromatography analysis demonstrated that insulin was the major product secreted under stimulatory conditions. Collectively, these data indicate that the BRIN-BD11 cell line represents an important stable glucose-responsive insulin-secreting beta-cell line for future studies.
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PMID:Characterization of a novel glucose-responsive insulin-secreting cell line, BRIN-BD11, produced by electrofusion. 869 Jan 62

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