Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The erythrocyte can phosphorylate a variety of hexoses. Since it can consume mannose and glucose equivalently in the hereditary deficiencies of hexokinase and phosphoglucose isomerase and since erythrocyte defense against oxidants is impaired in a variety of hereditary hemolytic anemias, we tested the hypothesis that mannose may be a significant alternative to glucose as a fuel for this defense system. Unexpectedly, mannose inhibited defense against oxidants as manifested by increased Heinz body formation when both normal and high-reticulocyte erythrocytes were incubated with acetylphenylhydrazine (APH). Using APH as the oxidant, mannose-incubated erythrocytes had decreased reduced glutathione stability and impaired hexose oxidation by the pentose shunt compared to glucose-incubated erythrocytes. After incubation with mannose and APH, normal erythrocytes showed a decrease in ATP content. Approximately 25% of the consumed mannose accumulated in the erythrocytes as mannose 6-phosphate. Erythrocytes incubated with mannose and APH displayed a significant loss of redox potential as manifested by decreased NADH/(NADH + NAD+) and NADPH/(NADPH + NADP+) ratios. Since phosphomannose isomerase is the rate-limiting step for mannose metabolism, our results suggest that mannose impairs erythrocyte defense against oxidants by causing ATP depletion and by impairing the regeneration of reduced pyridine nucleotides by the Embden-Meyerhof and pentose phosphate pathways.
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PMID:Inhibitory effect of mannose on erythrocyte defense against oxidants. 333 78

The erythrocyte 2,3-diphosphoglycerate concentration (2,3-DPG) and the activity of red cell hexokinase, pyruvate kinase, glucose-6 phosphate dehydrogenase and glutathione reductase were studied in 27 normal volunteers before and after 2 and 4 months of physical endurance training. The 4 months of training increased maximal oxygen uptake and physical working capacity (PWC130) by 16% (p less than 0.001) and 29% (p less than 0.001) respectively. Resting heart rate was decreased (p less than 0.001) by 11 beats.min-1. With 2 months of training the erythrocyte 2,3-DPG concentration increased by 9% (p less than 0.001); with 4 months training the increase was only 4% (p less than 0.05). The training-induced increase in red cell 2,3-DPG was not accompanied by enhanced activity of erythrocyte hexokinase, pyruvate kinase, glucose-6 phosphate dehydrogenase or glutathione reductase. It is concluded that the rise in red cell 2,3-DPG induced by physical endurance training is not due to activation of red cell glycolytic enzymes or the enzymes involved in the pentose-phosphate cycle.
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PMID:Effects of training on erythrocyte 2,3-diphosphoglycerate in normal men. 339 60

1. In human erythrocytes, alpha-D-[U-14C]glucose is more efficiently oxidized than beta-D-[U-14C]glucose at a low concentration of the hexose (0.1 mM), but not so at higher glucose concentrations. 2. This unexpected situation may be attributable in part to the lower Km of hexokinase for alpha- than beta-D-glucose, this difference in affinity compensating for the higher maximal velocity found with the beta- rather than alpha-anomer. 3. A contributive role for aldose reductase in the anomeric control of D-glucose 6-phosphate circulation in the pentose phosphate pathway should not be ruled out, since aldose reductase inhibitors decrease the production of 14CO2 by erythrocytes exposed to D-[U-14C]glucose. 4. Nevertheless, the essential role of hexokinase in such an anomeric control is supported by the finding that, in the presence of menadione, which augments considerably D-[U-14C]glucose oxidation but fails to affect D-[5-3H]glucose utilization, the anomeric alpha/beta ratio in 14CO2 production from D-[U-14C]glucose follows, at increasing concentrations of the hexose, the same pattern as that found for its phosphorylation.
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PMID:Anomeric specificity of D-glucose phosphorylation and oxidation in human erythrocytes. 362 7

The effects of orally administered secondary autoxidation products of linoleic acid in rat liver were investigated. Their administration led to two toxic effects on hepatic carbohydrate metabolism, as compared to the administration of saline or linoleic acid used as controls. One effect was depletion of glucose 6-phosphate and fructose 6-phosphate caused by the reduction of glycolysis and glycogenolysis, accompanied by decreases in glycogen synthesis and pentose phosphate cyclic activity. The reduction in these metabolic systems seems unlikely to occur because phosphofructokinase was regulated by ATP or citrate enzymatically, because their accumulation in the liver was not detected in the secondary products. Another toxic effect was the depletion of oxaloacetate and isocitrate caused by the reduction in enzyme activity of the mitochondrial citrate cycle. On the basis of these results, the hepatotoxic effects of secondary products are discussed as follows: the incorporated secondary products impaired the activities of hexokinase and phosphoglucomutase in the liver. The reduction in these enzyme activities resulted in the depletion of glucose 6-phosphate and fructose 6-phosphate, which led ultimately to decreases in the activities of phosphofructokinase, the pentose phosphate cycle, and glycogen synthesis. Moreover, the secondary products disturbed the mitochondrial membrane, resulting in a decrease in the activity of the citrate cycle, which was accompanied by depletion of its metabolites.
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PMID:Effect of orally administered secondary autoxidation products of linoleic acid on carbohydrate metabolism in rat liver. 368 80

Glucose utilization by different metabolic pathways in bovine adrenal medulla has been studied using freshly isolated adrenal chromaffin cells. The rate of net glucose utilization in resting cells was 10.5 mumoles X g-1 X h-1. 50% was transformed into lactate and pyruvate, the lactate to pyruvate ratio ranging from 3 to 7.27% was metabolized through the tricarboxylic acid cycle and 3.1% was oxidized in the pentose phosphate pathway. The ratio of 14CO2 production from [1-14C] glucose and [6-14C] glucose was close to 2 at one hour of incubation. 3.2% of total glucose consumed was used in protein synthesis, and 1% was incorporated into lipids. Oxygen utilization in respiration by isolated adrenal chromaffin cells was 18.2 mumoles X g-1 X h-1, corresponding to 3.1 mumoles glucose X g-1 X h-1 or about 30% of total glucose consumed. The activities of hexokinase, enolase, pyruvate kinase, lactate dehydrogenase, glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase were assayed in extracts of bovine adrenal medulla, being 1.0, 23, 40, 37, 6.0 and 3.0 U/g respectively. Hexokinase activity was identified as belonging mainly to isoenzyme I, with some isoenzyme II. Enolase was predominantly the alpha gamma hybrid. Pyruvate kinase activity corresponded to a mixture of isoenzymes K and M. Lactate dehydrogenase activity corresponded to isoenzymes 1, 2 and 3, with smaller proportions of isoenzymes 4 and 5. Results are discussed mainly with respect to those reported for the brain.
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PMID:Enzymes and pathways of glucose utilization in bovine adrenal medulla. 371 7

Maximum activities of some key enzymes of metabolism were studied in elicited (inflammatory) macrophages of the mouse and lymph-node lymphocytes of the rat. The activity of hexokinase in the macrophage is very high, as high as that in any other major tissue of the body, and higher than that of phosphorylase or 6-phosphofructokinase, suggesting that glucose is a more important fuel than glycogen and that the pentose phosphate pathway is also important in these cells. The latter suggestion is supported by the high activities of both glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase. However, the rate of glucose utilization by 'resting' macrophages incubated in vitro is less than the 10% of the activity of 6-phosphofructokinase: this suggests that the rate of glycolysis is increased dramatically during phagocytosis or increased secretory activity. The macrophages possess higher activities of citrate synthase and oxoglutarate dehydrogenase than do lymphocytes, suggesting that the tricarboxylic acid cycle may be important in energy generation in these cells. The activity of 3-oxoacid CoA-transferase is higher in the macrophage, but that of 3-hydroxybutyrate dehydrogenase is very much lower than those in the lymphocytes. The activity of carnitine palmitoyltransferase is higher in macrophages, suggesting that fatty acids as well as acetoacetate could provide acetyl-CoA as substrate for the tricarboxylic acid cycle. No detectable rate of acetoacetate or 3-hydroxybutyrate utilization was observed during incubation of resting macrophages, but that of oleate was 1.0 nmol/h per mg of protein or about 2.2% of the activity of palmitoyltransferase. The activity of glutaminase is about 4-fold higher in macrophages than in lymphocytes, which suggests that the rate of glutamine utilization could be very high. The rate of utilization of glutamine by resting incubated macrophages was similar to that reported for rat lymphocytes, but was considerably lower than the activity of glutaminase.
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PMID:Metabolism of glucose, glutamine, long-chain fatty acids and ketone bodies by murine macrophages. 380 Sep 71

Microinjection of frog oocytes allows the modification of intracellular levels of substrates, intermediates, cofactors and enzymes. Use of labeled glucose at specific positions has led us to conclude that oocytes utilize glucose mainly for glycogen synthesis and to a lesser extent for the pentose-P pathway. Glycolysis, glycogenolysis and gluconeogenesis are not operative in these cells. The subject of compartmentation of glucose utilization has been addressed in this paper. First, we show that microinjection of glucose results in a 30-fold increase of carbon incorporation into glycogen when compared to oocytes incubated at saturating glucose concentrations. On the other hand, carbon incorporation into CO2, remains at about the same levels in both conditions Second, microinjection of NADP+ increases CO2 release and inhibits glycogen synthesis from glucose. Third, co-injection of unlabeled intermediates affects differentially glycogen synthesis and CO2 production from labeled glucose. Finally, microinjection of pure yeast hexokinase stimulates markedly 14CO2 release and inhibits glycogen synthesis. We conclude that two separate pools of glucose-6-P exists in oocytes: one pool is committed to the pathway of glycogen synthesis while a second pool serves as substrate for the operation of the pentose-P pathway.
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PMID:Search for compartments of glucose metabolism in the microinjected frog oocyte. 393 91

Some enzyme activities and metabolic features of the black Ma melanotic, brown MI melanotic and Ab amelanotic melanomas of hamster were investigated. The activities of hexokinase and phosphofructokinase were similar in all three melanomas, the activity of NAD-dependent glycerol-3-phosphate dehydrogenase was higher in the amelanotic melanoma and that of pyruvate kinase and lactate dehydrogenase were slightly lower in MI than in the other tumors. The activities of citrate synthase, succinate dehydrogenase and malate dehydrogenase were higher in the Ma and MI melanotic melanomas than in the Ab amelanotic melanoma. The rate of labeled CO2 production from 6-14C-glucose, 1,5-14C-citric acid and U-14C-glutamine was about 2 times higher in melanotic melanomas than in amelanotic one, while no significant differences among the three melanomas were found in respect to 1-14C-glucose and U-14C-glycerol-3-phosphate. The production of 14CO2 was much higher from 1-14C-glucose than from 6-14C-glucose in all the melanomas studied. L-DOPA stimulated the production of 14CO2 from 1-14C-glucose much stronger in the Ma and MI melanomas than in the Ab melanoma. In none of the tumors the incorporation from 6-14C-glucose to CO2 was affected by L-DOPA. It is postulated that oxidation of glucose via the pentose phosphate cycle is involved in melanogenesis.
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PMID:Metabolic characterization of three hamster melanoma variants. 406 92

1. Superovulated rat ovary slices from rats treated with 20mug. of luteininzing hormone/100g. body wt. 2hr. before death and from control animals have been incubated in vitro. Output of Delta(4)-3-oxo steroids (0.2mumole/g. wet wt./hr. in control tissue) was linear for 4hr., and was increased by approx. 70% in slices from luteinizing hormone-treated rats. Rate of oxygen consumption (90.0+/-4.6mumoles/g. wet wt./hr.) was linear for 3hr. and unaltered by luteinizing hormone treatment or addition of glucose (1mg./ml.) to the medium. 2. In slices from control animals, steady-state rate of glucose uptake was 78.0+/-2.9mug. atoms of carbon/g. wet wt./hr.; steady-state rates of lactate output, pyruvate output and incorporation of [U-(14)C]-glucose carbon atoms into carbon dioxide and total lipid extract were 60.7+/-0.9, 2.4+/-0.1, 18.0+/-1.1 and 0.7+/-0.1mug. atom of carbon/g. wet wt./hr. and accounted for 104.5+/-1.9% of the glucose uptake. In slices from luteinizing hormone-treated rats, glucose uptake and outputs of lactate, pyruvate and [(14)C]carbon dioxide were increased by approx. 25%, and 108.4+/-3.2% of the glucose uptake could be accounted for. 3. The total lipid extract was separated by thin-layer chromatography and saponification. Of the (14)C incorporated into this fraction during incubation with [U-(14)C]glucose 97% was found in the fractions containing glyceride glycerol and less than 3% in the fractions containing sterols, steroids or fatty acids. Appreciable quantities of (14)C were incorporated into these lipid fractions from [1-(14)C]acetate. 4. From a consideration of the tissue glycogen content, the specific activities of [(14)C]lactate and glucose 6-phosphate (C-1) derived from [1-(14)C]-, [6-(14)C]- and [U-(14)C]-glucose, and the ratio of [(14)C]carbon dioxide yields from [1-(14)C]glucose and [6-(14)C]glucose, it was concluded that there was no appreciable glycogenolysis or flow through the pentose phosphate cycle. 5. In ovary slices from both control and luteinizing hormone-treated animals, glucose in vitro raised the incorporation rate of (14)C from [1-(14)C]acetate into sterols and steroids. Luteinizing hormone in vivo stimulated the incorporation rate in vitro but only in the presence of glucose. 6. In slices incubated in medium containing [(3)H]water, [(14)C]sorbitol and glucose (1mg./ml.), the total water space (865+/-7.1mul./g.) and the extracellular water space (581+/-22mul./g.) were unchanged by luteinizing hormone treatment in vivo but the glucose space was raised from 540+/-23.6mul./g. to 639+/-31.3mul./g. 7. Luteinizing hormone treatment was found to lower the tissue concentration of the hexose monophosphates and to increase the total activity of hexokinase, glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase and possibly of phosphofructokinase. 8. The kinetic properties of a partially purified preparation of phosphofructokinase were found to be qualitatively similar to those from other mammalian tissues. 9. The results are discussed with reference to both the role of glucose metabolism in steroidogenesis and the mechanism by which luteinizing hormone increases the rate of glucose uptake.
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PMID:Glucose metabolism in the superovulated rat ovary in vitro. Effects of luteinizing hormone and the role of glucose metabolism in steroidogenesis. 424 Jul 7

1. The pentose phosphate pathway in Krebs ascites cells was investigated for regulatory reactions. For comparison, the glycolytic pathway was studied simultaneously. 2. Activities of the pentose phosphate pathway enzymes were low in contrast with those of the enzymes of glycolysis. The K(m) values of glucose 6-phosphate dehydrogenase for both substrate and cofactor were about four times the reported upper limit for the enzyme from normal tissues. Fructose 1,6-diphosphate and NADPH competitively inhibited 6-phosphogluconate dehydrogenase. 3. About 28% of the hexokinase activity was in the particulate fraction of the cells. The soluble enzyme was inhibited by fructose 1,6-diphosphate and ribose 5-phosphate, but not by 3-phosphoglycerate. The behaviour of the partially purified soluble enzyme in vitro in a system simulating the concentrations of ATP, glucose 6-phosphate and P(i) found in vivo is reported. 4. Kinetics of metabolite accumulation during the transient state after the addition of glucose to the cells indicated two phases of glucose phosphorylation, an initial rapid phase followed abruptly by a slow phase extending into the steady state. 5. Of the pentose phosphate pathway intermediates, accumulation of 6-phosphogluconate, sedoheptulose 7-phosphate and fructose 6-phosphate paralleled the accumulation of glucose 6-phosphate. Erythrose 4-phosphate reached the steady-state concentration by 2min., whereas the pentose phosphates accumulated linearly. 6. The mass-action ratios of the pentose phosphate pathway reactions were calculated. The transketolase reaction was at equilibrium by 30sec. and then progressively shifted away from equilibrium towards the steady-state ratio. The glucose 6-phosphate dehydrogenase was far from equilibrium at all times. 7. Investigation of the flux of [(14)C]glucose carbon confirmed the existence of an operative pentose phosphate pathway in ascites cells, contributing 1% of the total flux in control cells and 10% in cells treated with phenazine methosulphate. 8. The pentose phosphate formed by way of the direct oxidative route and estimated from the (14)CO(2) yields represented 20% of the total accumulated pentose phosphate, the other 80% being formed by the non-oxidative reactions of the pentose phosphate pathway. 9. The pentose phosphate pathway appears to function as two separate pathways, both operating towards pentose phosphate formation. Control of the two pathways is discussed.
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PMID:The pentose phosphate pathway of glucose metabolism. Enzyme profiles and transient and steady-state content of intermediates of alternative pathways of glucose metabolism in Krebs ascites cells. 536 Jun 73


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