EC:2.7.1.1 - FACTA Search

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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 behaviour of glycolytic flux and glycolytic metabolic concentrations was studied under conditions of magnesium deficiency. The Mg-deficiency was produced in whole animals (rats) by feeding a diet almost completely free of Mg and in hemolysates of men by the addition of a chelating agent. The results show that the decrease of the free Mg-level is diminished by partial destruction of ATP and 2,3-DPG. The analysis of the control strength of the overall flux leads to the conclusion that the decrease of the glycolytic rate is caused by an inhibition of the hexokinase-phosphofructokinase-control system. The decrease of the MgATP-Complex and free Mg++-level explains the diminished phosphorylation of glucose by the hexokinase. The ATP-inhibition of the phosphofructokinase is amplified by a small increase of free ATP-concentration and a simultaneous decrease of the Fru-6P-level. The increase of the PEP-level is caused by the diminished free Mg++ and MgATP-complex and does not demonstrate a larger control strength of the pyruvate kinase.
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PMID:[Control of glycolysis in magnesium deficiency: studies on intact red cells and hemolysates]. 14 77

The B-CK isozyme of cytoplasmic creatine kinase is localized distinctly in the terminal web region of the intestinal epithelial cell brush border (Keller and Gordon: Cell Motil. Cytoskeleton 19:169-179, 1991). Experiments were performed to determine whether this CK is energetically coupled to the myosin II that is present in the circumferential ring and interrootlet structural domains of the brush border terminal web. In isolated brush borders, ATP-dependent circumferential ring contraction and interrootlet myosin solubilization were supported either by an exogenous PEP-pyruvate kinase-based ATP-regeneration system (PEP-PK) or by the addition of phosphocreatine to the endogenous B-CK-based ATP-regeneration system (PCr-B-CK). Addition of an exogenous hexokinase-glucose ATP-hydrolysis system (HK-G) effectively blocked both contraction and myosin solubilization in the PEP-PK assay. In contrast, HK-G had no significant effect on PCr-B-CK-supported brush border contraction, although it did inhibit interrootlet myosin solubilization. Thus, when high-energy phosphate is supplied as phosphocreatine, brush border B-CK imparts to the circumferential ring myosin a selective energetic advantage over other ATPases. These results suggest that myosin and B-CK are functionally coupled in the brush border circumferential ring, where they might comprise one end of an energy circuit that supplies energy for contraction, but that colocalization of CK with myosin in the brush border interrootlet domain is insufficient to establish functional coupling.
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PMID:Functional coupling to brush border creatine kinase imparts a selective energetic advantage to contractile ring myosin in intestinal epithelial cells. 153 84

Energy metabolism of malaria parasites was investigated in P. berghei infected red blood cells of rat. Although Plasmodia contain mitochondria most of their ATP is formed by glycolysis. Lactate formation is two orders of magnitude higher than in noninfected erythrocytes. The coupling of respiration and glycolysis is very loose, a Pasteur-effect was not found. The key enzymes of glycolysis hexokinase and phosphofructokinase have been partially purified and kinetically characterized. The kinetic properties of both enzymes significantly differ from those of erythrocytes. They are less efficiently inhibited and PFK is activated only by PEP, Fru6P and Pi. The high rate of glycolytic proton formation in Plasmodia inhibits the PFK and thus the anaerobic energy metabolism of the host cell but not that of the parasite. Nevertheless the ATP concentrations in the host and the parasite compartment were found to be nearly identical. This supports the assumption that the parasites make ATP available to their host cell, probably by an adenine nucleotide translocator.
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PMID:Regulation of the energy metabolism of Plasmodium berghei. 214 51

1. Carbohydrate metabolism was studied in HT29 human colon cancer cells cultured in a glucose free medium supplemented with 2.8 mM inosine (HT29ino cells) in comparison with standard HT29 cells grown in the permanent presence of glucose (HT29Glc + cells) and with HT29Glc- cells which are adapted to grow permanently without glucose. 2. Inosine allows the standard cells to grow when glucose is lacking but surprisingly stops the growth of HT29Glc- cells. 3-mercaptopicolinate, an inhibitor of PEP-carboxykinase, does not hinder HT29ino cells to grow, which shows that gluconeogenesis from aspartate or pyruvate is not essential. It suggests that enough carbohydrate is supplied by the ribose moiety of inosine. 3. While standard HT29Glc + cells are highly glycolytic, it is not the case of HT29ino or HT29Glc- cells when glucose is given for few hours. When glucose is present for 24 hr or more, glycolytic rate increases in HT29ino cells and glycogen accumulates. 4. It is found that the pattern of enzymes activities related to carbohydrate metabolism in HT29ino cells is closer to that of HT29Glc + cells rather than to that of HT29Glc- cells. However, phosphofructokinase-1 activity, measured with saturating concentration of Fru-2,6-diP, is significantly lower in HT29ino cells. 5. Binding rate of hexokinase to mitochondria is similar in the three cell-lines. However, in HT29Glc- cells, bound hexokinase easily utilizes ATP generated by the mitochondria. By contrast, in HT29Glc+ and HT29ino cells, bound hexokinase is much more active with exogenous ATP, suggesting a functional defect in the mitochondria from these two latter cells.
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PMID:Carbohydrate metabolism in HT29 colon cancer cells cultured in a glucose free medium supplemented with inosine. 252 33

1. Some physico-chemical constants and the nutritional regulation of pyruvate kinase (PK), phosphofructokinase (PFK) and hexokinase (HK) from rainbow trout liver was investigated. 2. The maximum activity pH for the three enzymes appears to be in a physiological range. 3. The PK-enzyme shows sigmoid kinetic with respect to PEP with a Hill-coefficient of 3.1; the other two enzymes show michaelian kinetic for their substrates. 4. The nutritional treatments show that HK-enzyme increases its level with high carbohydrate diet and decreases with high protein diet and starvation. 5. PFK-enzyme decreases with high protein diet and starvation. 6. PK-enzyme only shows a decrease in level with starvation conditions.
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PMID:Nutritional regulation of glycolysis in rainbow trout (Salmo gairdneri R.). 622 70

In a study of metabolic regulation, it is frequently useful to consider the degree to which an enzyme can influence the rate of its pathway. The most productive expression of rate-controlling influence is the fractional change in pathway rate per fractional change in enzyme activity (called control strength or sensitivity coefficient). We have developed a system for considering how a substrate-cycle enzyme's control strength depends on its flux and reaction order and on related features of other enzymes of its pathway. We have applied this system to the gluconeogenic pathway of rat liver and the glycolytic pathway of bovine sperm, where enough fluxes and reaction orders have been published to allow valid estimates of several control strengths. In normal fed animals where gluconeogenesis is slow and unidirectional substrate-to-product and product-to-substrate fluxes are comparable, all substrate-cycle limbs have very high and similar control strengths regardless of their flux rates and positions in the pathway. The activity of a step affects all substrate-cycle control strengths similarly as it affects unidirectional end-to-end fluxes relative to net rate. Control strengths of non-substrate-cycle enzymes are negligible compared to those of substrate cycles. In fasting animals, on the other hand, where unidirectional Pyr----Glc flux is much greater than Glc----Pyr flux, upstream enzymes (near Pyr) have a regulatory advantage over downstream enzymes (near Glc). In this circumstance, control strength of each substrate-cycle enzyme is inversely related to rate limitingness between its substrate and the pathway substrate. Because the Pyr/PEP cycle is significantly rate limiting, the control strength of the Pyr----PEP limb is much greater than that of pyruvate kinase and all downstream enzymes. In the glycolytic pathway of bovine sperm, strong product inhibition of hexokinase detracts greatly from its rate limitingness and control strength, which are very small despite its position at the beginning of the pathway and its large free energy. Because the glucose-transport-hexokinase segment is not rate limiting, phosphofructo 1-kinase has almost as much control strength as it would have as the first enzyme of the pathway, and because the F6P/FDP cycle is only moderately rate limiting, Fru-1,6-P2ase and enzymes further downstream have substantial control strengths. When glycolysis is accelerated by stimulation of phosphofructo 1-kinase, control strength shifts from phosphofructo-1-kinase and all downstream enzymes to the transporthesokinase segment.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Sensitivity of pathway rate to activities of substrate-cycle enzymes: application to gluconeogenesis and glycolysis. 624 Dec 74

Two enzymatic assay procedures for the measurement of 2,5-anhydrohexitol fructose analogs have been devised. Both procedures are based on the measurement of ADP formed during enzymatic phosphorylation of the analogs either by hexokinase or by fructokinase. The actual measurement makes use of the coupled assay system using pyruvate kinase, PEP, lactate dehydrogenase, and NADH. Both systems can be used to measure fructose and appropriate analogs at cuvette concentrations up to 0.10 mM. The hexokinase procedures allows the measurement of fructose, 2,5-anhydromannitol, and 2,5-anhydromannose. Glucose, which also reacts, can be removed by pretreatment of the samples with glucose oxidase. The fructokinase procedure allows the measurement of fructose, 2,5-anhydromannitol, 2,5-anhydroglucitol, and 2,5-anhydrotalitol.
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PMID:Enzymatic analysis of 2,5-anhydro-D-mannitol and related compounds. 641 7

This study tests the hypothesis that glycolytic regulation of KATP channel activity is altered in myocardial hypertrophy. Left ventricular (LV) subendocardial myocytes were isolated from cats with normal or left ventricular hypertrophied hearts (LVH). Saponin-permeabilized open cell-attached patch configurations of normal and LVH cells were exposed to an exogenous ATP consuming system containing hexokinase and 2-deoxyglucose. Phosphoenol pyruvate (PEP, substrate for the last ATP producing step in glycolysis) was applied extracellularly; ADP was present. In both cell types, KATP channels were activated in the absence of PEP, inhibited when PEP was added and activated again when PEP was removed, indicating the cells retained metabolic integrity and generated ATP in the proximity of their KATP channels. Single channel conductance in the absence of PEP was similar (70 pS, normal; 66 pS, LVH). However, LVH KATP channels showed enhanced activity (P0=0.50+/-0.03); normal (0.41+/-0.03) in PEP absence (P<0. 05). PEP responsiveness was reduced in LVH, with IC50, PEP increased to 23 microM; (11 microM normal). Lactate failed to activate KATP channels in both cell types. The concentration-P0 response curves obtained during exposure of open cells to exogenous ATP also revealed reduced responsiveness to ATP of LVH KATP channels (IC50, ATP=283 microM LVH; 93 microM normal). Our data indicate myocardial hypertrophy increases the maximal activity of KATP channels in the absence of ATP and reduces their responsiveness to ATP, including locally generated glycolytic ATP. These alterations in metabolic regulation of myocardial electrophysiology may contribute to diversity of action potential shortening in hypertrophied hearts during acute ischemia.
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PMID:Hypertrophy decreases cardiac KATP channel responsiveness to exogenous and locally generated (glycolytic) ATP. 934 77

Incubation of boar sperm from fresh ejaculates in a minimal medium with 10 mM glucose induced a fast and intense activation of glycolysis, as indicated by the observed increases in the intracellular levels of glucose 6-phosphate (G 6-P) and ATP and the rate of formation of extracellular L-lactate. The effect of glucose was much more intense than that induced by fructose, sorbitol, and mannose. The greater utilization of glucose was related to a much greater sensitivity to hexokinase when compared with the other monosaccharides. Thus, the presence of 0.5 mM glucose induced total hexokinase activity in supernatants from sperm extracts of 1.7 +/- 0.1 mIU/mg protein, while the same concentration of both fructose, mannose, and sorbitol induced total hexokinase activity from 0.3 +/- 0.1 mIU/mg protein to 0.60 +/- 1 mIU/mg protein. Kinetic analysis of the total pyruvate kinase activity indicated that this activity was greatly dependent on the presence of ADP and also showed a great affinity for PEP, with an estimated Km in supernatants of 0.15-0.20 mM. Immunological location of proteins closely related to glycolysis, like GLUT-3 hexose transporter and hexokinase-I, indicated that these proteins showed the trend to be distributed around or in the cellular membranes of both head and midpiece in a grouped manner. We conclude that glycolysis is regulated by both the specific availability of a concrete sugar and the internal equilibrium between ATP and ADP levels. Furthermore, localization of proteins involved in the control of monosaccharide uptake and phosphorylation suggests that glycolysis starts at concrete points in the boar-sperm surface.
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PMID:Hexose-specificity of hexokinase and ADP-dependence of pyruvate kinase play important roles in the control of monosaccharide utilization in freshly diluted boar spermatozoa. 1680 79

Mitochondrial porins or voltage-dependent anion channels (VDAC) are the main route for solute transport through outer mitochondrial membranes (OMM). In mammals, hexokinase (HK) binds to VDAC, which allows the channeling of ATP synthesized by oxidative phosphorylation toward HK. In plants, although HK has been found associated with OMM, evidence for an interaction with VDAC is scarce. Thus, in this work, we studied the physical and functional interaction between these proteins in beetroot mitochondria. To observe a physical interaction between HK and VDAC, OMM presenting HK activity were prepared from purified mitochondria. Protein complexes were solubilized from OMM with mild detergents and separated by centrifugation in glycerol gradients. Both HK activity and immunodetected VDAC were found in small (9S-13S) and large (>40S) complexes. OMM proteins were also separated according to their hydropathy by serial phase partitioning with Triton X-114. Most of HK activity was found in hydrophobic fractions where VDAC was also present. These results indicated that HK could be bound to VDAC in beetroot mitochondria. The functional interaction of HK with VDAC was demonstrated by observing the effect of apyrase on HK-catalyzed glucose phosphorylation in intact mitochondria. Apyrase, which hydrolyzes freely soluble ATP, competed efficiently with hexokinase for ATP when it was produced outside mitochondria (with PEP and pyruvate kinase), but not when it was produced inside mitochondria by oxidative phosphorylation. These results suggest that HK closely interacts with VDAC in beetroot mitochondria, and that this interaction allows the channeling of respiratory ATP toward HK through VDAC.
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PMID:ATP produced by oxidative phosphorylation is channeled toward hexokinase bound to mitochondrial porin (VDAC) in beetroots (Beta vulgaris). 2350 82

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