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)

Kinetic differences between brain capillary and parenchymal hexokinase in the presence of glucose, ATP. fructose, potassium, sodium and different pH were established. Parenchymal hexokinase is more susceptible to glucose inhibition, can tolerate greater variations in the ATP concentration, is inhibited by increasing concentrations of fructose and potassium, and showed greater activity on the lower pH values. The data suggest that in brain parenchyma and endothelial cells of brain microvessels, there are 2 different enzymes with regard to the kinetics properties.
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PMID:Brain microvessel hexokinase: kinetic properties. 3 23

The interconnections between EEG, intermediary and energy metabolism of the brain cortex and CSF potassium level are studied during severe hypercapnia in anaesthetized, artificially ventilated cats. Hypercapnic animals were ventilated with 40 to 50% to CO2 in oxygen. During severe hypercapnia the EEG becomes isoelectric. The CSF potassium concentration is raised and the changes in metabolism suggest an acidosis-induced inhibition of phosphofructokinase and, probably, of hexokinase. The energy charge potential remains unchanged whereas the cortical ATP concentration increases slightly. It is assumed that the changes in P-creatine and creatine levels are related to the pH-dependency of creatine phosphokinase. Recovery animals were ventilated with 40% CO2 in O2 and subsequently with room air. After termination of CO2 inhalation the EEG reappears, the CSF potassium concentration normalizes, and the inhibition of the glycolytic enzymes disappears. The energy charge potential shows a small decrease. It is not possible to trace back the disappearance of the EEG to only one of the recorded parameters. Cortical P-creatine levels, CSF potassium concentration, changes in membrane permeability and cortical amino acid concentrations are considered in this context.
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PMID:Influence of severe hypercapnia upon cerebral cortical metabolism, CSF electrolyte concentrations and EEG in the cat. 13 59

Resting and stimulated fluxes of sodium and potassium across the giant axon of the marine annelid, Myxicola infundibulum, have been characterized using the technique of internal dialysis. In most respects the ion movements were found to be similar to those in squid axons. Sodium efflux and potassium influx were found to be active, cardiac glycoside-sensitive fluxes, with a variable coupling ratio. However, when [ATP]i was lowered to less than 20 microM by treatment with cyanide and continuous dialysis, or to less than 2 microM by dialysis with glucose following injection of hexokinase, Na efflux and K influx were unaltered. The maintained fluxes were not accounted for by an increased passive permeability of the axolemma, although 30-60% of the Na efflux appeared to be due to Na-Na exchange. An altered form of Na pump operation at low [ATP]i is a more likely explanation than an alternate energy source, or an ATP source proximate to the axolemma. The transient response of 22Na efflux to a change in [22Na]i was found to be much slower than in squid, tau = 360 sec. The efflux delay could only be accounted for by an extra-axonal diffusion barrier, which is probably the basement membrane surrounding the ventral nerve cord.
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PMID:Sodium and potassium fluxes across the dialyzed giant axon of Myxicola. 31 30

Keeping constant cellular magnesium an A 23 187 mediated moderate calcium loading of human red cells causes isoosmotic cell shrinkage, potassium efflux, slight decrease of cellular pH, ATP depletion connected with an increase of AMP, ADP and Pi and enhanced lactic acid formation. The calcium loading and accompanying effects can be abolished by EGTA or by extracellular magnesium, the latter kept more than two orders of magnitude above that of calcium which was 30 micrometer. Inhibition of the (Mg2+ + Ca2+)-dependent ATPase by ruthenium red or lanthanum decreases the calcium stimulated lactic acid formation after a lag phase. However, the ATP depletion proceeds faster and is much more pronounced under these conditions. (Mg+2 + Na+ +K+)-dependent ATPase, hexokinase, phosphofructokinase and cell shrinkage are ruled out, too, as mediators of the ATP depletion. This suggests that an unknown ATP consuming reaction, apparently not being related to the calcium pump, causes the calcium induced ATP depletion.
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PMID:Relations between ion shifting, ATP depletion and lactic acid formation in human red cells during moderate calcium loading using the ionophore A 23187. 33 40

The function of mitochondria-bound hexokinase, the enzymatic form peculiar to the brain, in utilization of ATP generated inside the organelles, was examined by incubating rat brain mitochondrial fraction with [14C]glucose under various conditions. Addition of succinate and ADP to the incubation medium increased glucose 6-phosphate formation by the mitochondrial hexokinase and caused a smaller increase in ATP concentration in the mitochondria. The glucose phosphorylation was markedly inhibited by the addition of dinitrophenol, potassium cyanide, and oligomycin, and the ATP concentration was decreased. On the other hand, addition of atractyloside suppressed the glucose phosphorylation without affecting the mitochondrial hexokinase activity, whereas addition of antiserum against the mitochondrial hexokinase inhibited both glucose 6-phosphate formation and hexokinase activity. A part of both the glucose phosphorylation and hexokinase activities, however, remained even in the presence of the maximum dose of the anti-hexokinase serum and atractyloside. These results indicate the active utilization of intrinsically generated ATP by the mitochondria-bound hexokinase, a part of which may be located away from the surface of the mitochondrial membrane.
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PMID:Functioning of mitochondria-bound hexokinase in rat brain in accordance with generation of ATP inside the organelle. 44 13

1. We have developed a procedure for preparing resealed red cell ghosts that contain ADP but very little ATP. 2. The procedure involves (i) lysis of the cells in a very large volume of lysing solution, (ii) resuspension of the ghosts in a small volume, (iii) the incorporation into the ghosts, before they are resealed, of the adenylate kinase inhibitor P1,P5-di(adenosine-5'-)pentaphosphate (AP5A) and of hexokinase, and (iv) the removal of traces of ATP, formed by residual adenylate kinase activity, by the addition of glucose. 3. Measurements of sodium efflux from ghosts prepared in this way show that sodium-sodium exchange through the sodium pump does not occur in the absence of ATP even if ADP is present. 4. The beta:gamma imido analogue of ATP (AMP.PNP), which is incapable of phosphorylating sodium, potassium-ATPase, cannot replace ATP in supporting sodium-sodium exchange. 5. These findings support the hypothesis that the outward movement of sodium ions through the sodium pump is associated with the transfer of a phosphoryl group from ATP to the enzyme, and that the inward movement of sodium ions through the pump is associated with the return of a phosphoryl group from the phosphoenzyme to ADP.
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PMID:Sodium-sodium exchange through the sodium pump: the roles of ATP and ADP. 53 26

To learn whether a single dialysis can acutely improve the intravenous glucose tolerance (i.v.GTT) of chronically dialyzed patients, a standard i.v.GTT was performed on 10 nonobese uremic subjects on maintenance hemodialysis for 27 +/- 9 (mean +/- SEM) mo, and on a control group of 13 normal subjects. The uremic patients were tested first 0.2-17 (range) hr, and then 65-109 hr, from last dialysis. In the uremic sera, plasma glucose was analyzed by 4 methods; 2 reducing (neocopurine and ferricyanide) and 2 enzymatic (hexokinase and glucose oxidase). The reducing methods markedly overestimated plasma glucose concentration because of the presence of nonglucose reducing substances (notably, creatinine). This inteference was significantly cut down by dialysis. A single dialysis, on the other hand, failed to improve the glucose fractional decay rate (KG) computed from the glucose oxidase data (1.69 +/- 0.2%/min before and 1.35 +/- 0.1 after dialysis, versus 1.47 +/- 0.1 of the normal subjects). The same conclusion was derived from the data measured by the other 3 methods of glucose assay. Fasting plasma insulin concentrations were, on average, above normal (5.5 +/- 0.6 muU/ml) both before (12.3 +/- 2.7, p less than 0.05) and after (17.2 +/- 3.5, p less than 0.01) a single dialysis. Likewise, the area under the glucose-induced plasma insulin curve was significantly greater than normal (1.46 +/- 0.21 mU/ml . min) both before (2.26 +/- 0.34, p less than 0.05), and after (2.86 +/- 0.43, p less than 0.01) dialysis. A single dialysis had little effect on either basal or glucose-stimulated insulin release, and no significant difference in the insulinogenic index (insulin area/glucose area) was found between the control and the uremic group in either test. Insulin response was not correlated with KG, whereas it was significantly associated with higher triglyceride levels. Creatinine, urea or methylguanidine did not appear to have any influence on KG, but lower serum potassium levels were significantly associated with poorer i.v.GTT's. Plasma calcium bore a reciprocal relation to the insulinogenic index. Chronically dialyzed subjects show some degree of tissue insulin resistance, which a single dialysis fails to correct. Electrolyte disturbances may play a role in this metabolic derangement.
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PMID:The response to intravenous glucose of patients on maintenance hemodialysis: effects of dialysis. 76 47

1. The hemolytic effect of L-sorbose on canine erythrocytes characterized by inherited high Na, K-ATPase activity and a high potassium concentration (HK RBCs) was compared with that on normal canine erythrocytes (LK RBCs). 2. Dogs having HK RBCs (HK dogs) revealed no clinical and hematological changes after administration of L-sorbose, whereas normal dogs (LK dogs) developed severe hemolytic anemia associated with hemoglobinuria and marked decreases of erythrocyte ATP concentrations. 3. In vitro, L-sorbose induced hemolysis in LK RBCs along with the depression of both ATP and lactate formation in these cells, but not in HK RBCs. The inhibition of glycolysis by L-sorbose in LK RBCs, however, was not observed when glucose-6-phosphate was used as a substrate instead of glucose. 4. These results suggest that the disparity of susceptibility to sorbose-induced hemolysis may be due to the difference in erythrocyte metabolism between HK and LK RBCs, especially the high activity of hexokinase in HK cells, which was 2-fold greater than that in LK RBCs.
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PMID:L-sorbose does not cause hemolysis in dog erythrocytes with inherited high Na, K-ATPase activity. 135 45

A highly sensitive FIA system for chemiluminometric determination of reduced coenzyme, NADH, was developed, using immobilized NADH oxidase from Brevibacterium ammoniagenes. The enzyme catalyzed the oxidation of NADH generating hydrogen peroxide which emitted chemiluminescence when mixed with luminol and potassium ferricyanide. The immobilized enzyme reactor was a mini-column, measuring 1 or 2 mm in inner diameter and 20 mm in length, and the sample volume was only 1 microliter per assay, with a feeding speed of one sample per min and a lowest detection limit of 10 pmol NADH. A FIA system was also developed for the determination of magnesium in human serum, using an enzyme column reactor with simultaneously coimmobilized hexokinase, D-glucose-6-phosphate dehydrogenase, and NADH oxidase. The performance of the system was as satisfactory as a routine colorimetric assay, but with much higher sensitivity.
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PMID:A flow injection analysis system involving immobilized NADH oxidase in column form for clinical analysis. 136 46

We have investigated the mechanism by which the replacement of a Na(+)-rich medium by a K(+)-rich medium causes an increase in the apparent affinity of glucokinase (hexokinase IV or D) for glucose in isolated hepatocytes [Bontemps, F., Hue, L. & Hers, H. G. (1978) Biochem. J. 174, 603-611]. The stimulatory effect of a K(+)-rich medium on the rate of glucose phosphorylation, as assessed by the release of tritium from [2-3H]glucose, was only partially additive with the effect of fructose, suggesting that it was also due to a decrease in the inhibition exerted on glucokinase by its regulatory protein. Measurements of metabolites indicated that the effect of the K(+)-rich medium was neither due to the formation of fructose 1-phosphate, nor to changes in the concentrations of fructose 6-phosphate or Pi, two other effectors of the regulatory protein. Replacement of Na+ by K+ in the medium resulted in a time-dependent and dose-dependent increase in cell volume that paralleled the changes in the rate of detritiation observed at 5 mM glucose. The water and chloride contents, estimated using radiolabelled compounds, were threefold and tenfold higher, respectively, in K+ cells than in Na+ cells, and the intracellular Cl- concentration about threefold higher (94 versus 29 meq/l). The effects of the K(+)-rich medium on cell volume, Cl- concentration and rate of detritiation were greatly reduced by including 80 mM trehalose or sucrose in the medium at the start of the incubation. Addition of trehalose to cells incubated for 45-50 min in the K(+)-rich medium caused an immediate decrease in cell volume whereas the rate of detritiation and the Cl- concentration underwent a transient increase followed by a decrease. Replacement of KCl by KBr, potassium acetate or potassium trichloroacetate in the K(+)-rich medium resulted in different relationships between cell volume and the rate of detritiation, in agreement with the differential effect of these salts on the activity of purified glucokinase assayed in the presence of regulatory protein. From these results we conclude that the increase in the activity of glucokinase induced by a KCl-rich medium is at least partly due to an increase in the concentration of Cl-, which relieves the inhibition exerted by the regulatory protein on purified glucokinase.
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PMID:Mechanism of the stimulatory effect of a potassium-rich medium on the phosphorylation of glucose in isolated rat hepatocytes. 174 Jan 48

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