Enzymes of glucose metabolism in normal mouse pancreatic islets.
S. J. H. Ashcroft,P. J. Randle +1 more
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The results obtained are discussed with reference to glucose phosphorylation and glucose 6-phosphate oxidation in the intact mouse islet, and the possible nature of the beta-cell glucoreceptor mechanism.Abstract:
1. Glucose-phosphorylating and glucose 6-phosphatase activities, glucose 6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, NADP(+)-linked isocitrate dehydrogenase, ;malic' enzyme and pyruvate carboxylase were assayed in homogenates of normal mouse islets. 2. Two glucose-phosphorylating activities were detected; the major activity had K(m) 0.075mm for glucose and was inhibited by glucose 6-phosphate (non-competitive with glucose) and mannoheptulose (competitive with glucose). The other (minor) activity had a high K(m) for glucose (mean value 16mm) and was apparently not inhibited by glucose 6-phosphate. 3. Glucose 6-phosphatase activity was present in amounts comparable with the total glucose-phosphorylating activity, with K(m) 1mm for glucose 6-phosphate. Glucose was an inhibitor and the inhibition showed mixed kinetics. No inhibition of glucose 6-phosphate hydrolysis was observed with mannose, citrate or tolbutamide. The inhibition by glucose was not reversed by mannoheptulose. 4. 6-Phosphogluconate dehydrogenase had K(m) values of 2.5 and 21mum for NADP(+) and 6-phosphogluconate respectively. 5. Glucose 6-phosphate dehydrogenase had K(m) values of 4 and 22mum for NADP(+) and glucose 6-phosphate. The K(m) for glucose 6-phosphate was considerably below the intra-islet concentration of glucose 6-phosphate at physiological extracellular glucose concentrations. The enzyme had no apparent requirement for cations. Of a number of possible modifiers of glucose 6-phosphate dehydrogenase, only NADPH was inhibitory. The inhibition by NADPH was competitive with NADP(+) and apparently mixed with respect to glucose 6-phosphate. 6. NADP(+)-isocitrate dehydrogenase was present but the islet homogenate contained little, if any, ;malic' enzyme. The presence of pyruvate carboxylase was also demonstrated. 7. The results obtained are discussed with reference to glucose phosphorylation and glucose 6-phosphate oxidation in the intact mouse islet, and the possible nature of the beta-cell glucoreceptor mechanism.read more
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Pancreatic islet glucose metabolism and regulation of insulin secretion
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Mammalian glucokinase and its gene.
TL;DR: The most recent and medically rewarding outcome of this research has been the discovery of mutations of the glucokinase gene as the cause of one subtype of non-insulin-dependent diabetes mellitus (NIDDM).
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Interrelationship of islet metabolism, adenosine triphosphate content and insulin release
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Feasibility of a Mitochondrial Pyruvate Malate Shuttle in Pancreatic Islets: FURTHER IMPLICATION OF CYTOSOLIC NADPH IN INSULIN SECRETION (∗)
TL;DR: The current results suggest that during glucose-induced insulin secretion there is a shuttle operating across the mitochondrial membrane in which glucose-derived pyruvate is taken up by mitochondria and carboxylated to oxaloacetate by pyruVate carboxykinase.
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A role for malonyl-CoA in glucose-stimulated insulin secretion from clonal pancreatic beta-cells.
Barbara E. Corkey,Major C. Glennon,Kai Chen,Jude T. Deeney,Franz M. Matschinsky,Marc Prentki +5 more
TL;DR: The data are consistent with a metabolic model in which malonyl-CoA mediates the switch from fatty acid catabolism to lipid synthesis during glucose stimulation of beta-cells, and it is suggested that these changes in lipid metabolism could play a pivotal role in the regulation of the sustained phase of insulin secretion.
References
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Metabolism of glucose in the islets of Langerhans.
F M Matschinsky,J.E. Ellerman +1 more
TL;DR: It was found that sorbitol can enter islet cells, but the rate appeared to be much slower than in the case of glucose, and the possible significance of the findings regarding the mechanism of insulin release is discussed.
Journal ArticleDOI
Glucose metabolism in mouse pancreatic islets.
TL;DR: The results are consistent with the idea that glucose utilization in mouse islets may be limited by the rate of glucose phosphorylation, that mannoheptulose and glucosamine may inhibit glucoseosphorylation and that effects of glucose on insulin release may be mediated through metabolism of the sugar.