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)

Hexokinase I in human erythrocytes exists in multiple molecular forms that differ in isoelectric points. By means of Western blotting and immunodetection of total glucose-phosphorylating activity by using an antibody raised in rabbit against homogeneous human placenta hexokinase I, a single protein band was detected. Identical results were also obtained by immunoaffinity chromatography of the partially purified enzyme. Separation of the three major hexokinase I subtypes (Ia, Ib and Ic) by h.p.l.c. ion-exchange chromatography and immunodetection following electrophoretic blotting confirmed that each hexokinase subtype showed the same apparent Mr of 112,000, which is the value obtained for the high-Mr hexokinase I from human placenta. Purification of erythrocyte hexokinase by a combination of several procedures including dye-ligand and affinity chromatography that were previously successfully applied to the purification of other mammalian hexokinases type I produced a 35,000-fold-purified enzyme that showed several contaminants after SDS/polyacrylamide-gel electrophoresis. Only one of these peptides was found to be recognized by anti-(hexokinase I) IgG, suggesting that proteolytic degradation does not occur and that hexokinases Ia, Ib and Ic have the same apparent Mr.
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PMID:Hexokinase type I multiplicity in human erythrocytes. 317 77

Previous studies from this laboratory have shown that mitochondrial bound hexokinase is markedly elevated in highly glycolytic hepatoma cells (Parry, D. M., and Pedersen, P.L. (1983) J. Biol. Chem. 258, 10904-10912). A pore-forming protein, porin, within the outer membrane appears to comprise at least part of the receptor site (Nakashima, R.A., Mangan, P.S., Colombini, M., and Pedersen, P.L. (1986). Biochemistry 25, 1015-1021). In studies reported here experiments were carried out to assess the functional significance of mitochondrial bound tumor hexokinase. Two approaches were used to determine whether the bound enzyme has preferred access to mitochondrially generated ATP relative to cytosolic ATP. The first approach compared the time course of glucose 6-phosphate formation by AS-30D hepatoma mitochondria under conditions where ATP was regenerated endogenously via oxidative phosphorylation or exogenously by added pyruvate kinase and phosphoenolpyruvate. The second approach involved the measurement of the specific radioactivity of glucose 6-phosphate formed following the addition of [gamma-32P]ATP to either phosphorylating or nonphosphorylating AS-30D mitochondria. Both approaches provided results which show that the source of ATP for bound hexokinase is derived preferentially from the ATP synthase residing within the inner mitochondrial membrane compartment rather than from the medium (i.e. from the cytosolic compartment). These results provide the first direct demonstration that the exceptionally high level of hexokinase bound to mitochondria of highly glycolytic tumor cells has preferred access to mitochondrially generated ATP, a finding that may have rather profound metabolic significance for such tumors.
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PMID:Functional significance of mitochondrial bound hexokinase in tumor cell metabolism. Evidence for preferential phosphorylation of glucose by intramitochondrially generated ATP. 318 54

To gain some insight into the mechanism of cell photostimulation by laser light, measurements were made of the rate of ADP/ATP exchange in mitochondria irradiated with the low power continuous wave Helium Neon laser (energy dose 5 Joules/cm2). To do this a method has been developed to continuously monitor ATP efflux from phosphorylating mitochondria caused by externally added ADP, by photometrically following the NADP+ reduction which occurs in the presence of glucose, hexokinase, glucose-6-phosphate dehydrogenase and effluxed ATP. The NADP+ reduction rate shows hyperbolic dependence on ADP concentration (Km and Vmax values 8.5 +/- 0.87 microM and 20.7 +/- 0.49 nmoles NADP+ reduced/min x mg mitochondrial protein, respectively), and proves to measure the activity of the ADP/ATP translocator as shown by inhibition experiments using atracyloside, powerful inhibitor of this carrier. Irradiation was found to enhance the rate of ADP/ATP antiport, with externally added ADP ranging between 5 and 100 microM. As a result of experiments carried out with mitochondria loaded with either ATP or ADP, the increase in the activity of the ADP/ATP translocator is here proposed to depend on the increase in the electrochemical proton gradient which occurs owing to irradiation of mitochondria.
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PMID:Increase in the ADP/ATP exchange in rat liver mitochondria irradiated in vitro by helium-neon laser. 319 Jun 85

cDNA clones encoding human hexokinase have been isolated from an adult kidney library. Analysis of this 917 amino acid protein (Mr = 102,519) indicates that the sequences of the NH2- and COOH-terminal halves, corresponding to the regulatory and catalytic domains, respectively, are homologous; and that eukaryotic hexokinases evolved by duplication of a gene encoding a protein of 450 amino acids. The COOH-terminal half of the protein created by this gene duplication retained the glucose binding site and glucose phosphorylating activity while the substrate binding sites of the NH2-terminal half evolved into a new allosteric effector site.
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PMID:Human hexokinase: sequences of amino- and carboxyl-terminal halves are homologous. 320 29

An improved method for the isolation of rat brain mitochondria is described. The preparation exhibits a respiratory control index (RCI) of 6 or 7.3 in the presence of pyruvate and malate or glutamate and malate, respectively. RCI decreases to 2.5 in the presence of Mg++. When the phosphorylation of extramitochondrially added or formed ADP is suppressed by carboxyatractyloside (CAT) inhibition of the adenine nucleotide translocator, the remaining respiration amounts to 6 nmol O2/min X mg mitochondrial protein. These results and the ratio of 16 to 19 from the quotient of phosphorylating active-state respiration to CAT inhibited respiration refer to a high degree of mitochondrial coupling of respiration. Therefore the remaining respiration in the presence of Mg++ is due to a phosphokinase activity located outside the inner membrane of intact mitochondria or at nonphosphorylating mitochondrial fragments. The following activities were observed: Oligomycin sensitive ATPase, 47 mU/mg protein; hexokinase, 272 mU/mg protein; creatinphosphokinase, 116 mU/mg protein; and a surprisingly low activity of adenylatekinase, 57 mU/mg protein.
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PMID:[ATP-metabolizing enzymes in suspensions of isolated coupled rat brain mitochondria]. 366 4

M. Kuwajima, C. B. Newgard, D. W. Foster, and J. D. McGarry (1986, J. Biol. Chem. 261, 8849-8853) have concluded that the reason postprandial hepatic glycogenesis occurs primarily from gluconeogenic precursors rather than glucose is because glucokinase activity is insufficient to support the observed rates of glycogen synthesis. F. L. Alvares and R. C. Nordlie (1977, J. Biol. Chem. 252, 8404-8414) have concluded that the combined activities of glucokinase and hexokinase are less than the apparent rates of hepatic glucose uptake. We have identified several factors in the assays used in these studies which lead to substantial underestimations of glucokinase activity. Glucokinase was assayed either by allowing glucose 6-phosphate to accumulate over 10 min (discontinuous assay) or by coupling the formation of glucose 6-phosphate with its oxidation by Leuconostoc mesenteroides glucose 6-phosphate dehydrogenase and NAD (continuous assay). Accurate determinations of glucokinase at 37 degrees C with subsaturating glucose require both 100 mM KCl and 2.5 mM dithioerythritol in the assay medium; 2-mercaptoethanol will not substitute for dithioerythritol. When both KCl and dithioerythritol are absent (Kuwajima et al.) glucokinase activity is underestimated by 3- to 5-fold. The discontinuous assay as used previously (Alvares and Nordlie) underestimates glucokinase activity in crude extracts by 2- to 2.5-fold, due in part to the hydrolysis of glucose 6-phosphate and its transformation to other hexose monophosphates. Under optimized conditions at 37 degrees C both assays yield similar results in extracts from fed rats, i.e., 2-3 and 4-5 units/g liver at 10 and 100 mM glucose, respectively. Some implications of the finding that total hepatic glucose phosphorylating capacity at physiological concentrations significantly exceeds the observed rates of postprandial glycogen synthesis are discussed.
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PMID:Factors underlying significant underestimations of glucokinase activity in crude liver extracts: physiological implications of higher cellular activity. 381 60

Homogenates of insulin-producing tumoral cells catalyzed the phosphorylation of glucose, mannose, and fructose. The kinetics of phosphorylation at increasing glucose concentrations, the inhibitory effect of glucose 6-phosphate, and the comparison of results obtained with distinct hexoses indicated the presence of both low-Km hexokinase-like and high-Km enzymatic activities, the results being grossly comparable to those collected in normal pancreatic islets. Relative to protein content, the glucose-phosphorylating enzymatic activity was higher in tumoral than normal islet cells. The activity of other enzymes was either lower (glutamate dehydrogenase), moderately higher (phosphoglucomutase, lactate dehydrogenase) or considerably greater (ornithine decarboxylase) in tumoral than in normal islet cells. In intact tumoral cells, incubated under increasing glucose concentrations, the oxidation of D-[U-14C]glucose and the output of lactic and pyruvic acids reached a close-to-maximal value at 2.8 mM glucose. The ratios for glucose oxidation/utilization and lactate/pyruvate output were much lower in tumoral than in normal islet cells. Although glucose caused a modest increase in insulin output from the tumoral cells, this effect was saturated at a low glucose concentration (2.8 mM) and less marked than that of other secretagogues (e.g., L-leucine, L-ornithine, or forskolin). Thus, despite a close-to-normal enzymatic equipment for glucose phosphorylation, the tumoral cells displayed severe abnormalities in the metabolism and secretory response to this hexose. These findings point to regulatory mechanisms distal to glucose phosphorylation in the control of glucose metabolism in insulin-producing cells.
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PMID:Glucose metabolism in insulin-producing tumoral cells. 389 13

In tumoral cells derived from the insulin-producing rat cell line RINm5F, both low- and high-Km glucose-phosphorylating enzymic activities were present. The hexokinase-like enzyme was inhibited by glucose 6-phosphate and displayed a greater affinity for but lower maximal velocity with alpha-D-glucose than beta-D-glucose. A comparable anomeric behavior of hexokinase was observed in breast cancer (MCF-7) and lymphocytic leukemia (P388) cells. Thus, the anomeric specificity of hexokinase in tumoral cells was not different from that recently characterized in normal mammalian cells.
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PMID:Anomeric specificity of hexokinase in rat, human, and murine tumor cells. 390 82

Three glucose-phosphorylating enzymes were separated from cell-free extracts of Saccharomyces cerevisiae by hydroxylapatite chromatography. Variations in the amounts of these enzymes in cells growing on glucose and on ethanol showed that hexokinase PI was a constitutive enzyme, whereas synthesis of hexokinase PII and glucokinase were regulated by the carbon source used. Glucokinase proved to be a glucomannokinase with Km values of 0.04 mM for both glucose and mannose. D-Xylose produced an irreversible inactivation of the three glucose-phosphorylating enzymes depending on the presence or absence of ATP. Hexokinase PI inactivation required ATP, while hexokinase PII was inactivated by D-xylose without ATP in the reaction mixture. Glucokinase was protected by ATP from this inactivation. D-Xylose acted as a competitive inhibitor of hexokinase PI and glucokinase and as a non-competitive inhibitor of hexokinase PII.
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PMID:Inhibition and inactivation of glucose-phosphorylating enzymes from Saccharomyces cerevisiae by D-xylose. 390 28

In rat erythrocyte homogenates, the phosphorylation of D-glucose measured at 30 degrees C over a wide range of glucose concentrations (50 microM to 20 mM) yielded in a double reciprocal plot a single straight line with a Km close to 0.06 mM and a maximal velocity close to 47 nmol/60 min per mg hemoglobin. At 8 degrees C, the rate of glucose phosphorylation was 60% higher in the presence of beta-D-glucose than alpha-D-glucose. Yet, in intact erythrocytes incubated at 8 degrees C in the presence of beta-D-glucose (4 or 7 mM), the glucose-induced increment in lactic acid output represented no more than 39 to 74% of that found in the presence of alpha-D-glucose. Thus, a greater rate of glycolysis in the presence of alpha-D-glucose was observed in a cell devoid of glucokinase and containing a hexokinase with preference for beta-D-glucose. These findings indicate that the anomeric specificity of glycolysis in intact cells cannot be predicted and does not necessarily depend on the anomeric preference of glucose-phosphorylating enzyme(s).
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PMID:Anomeric specificity of glycolysis in a non glucokinase-containing cell. 399 34

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