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)

Hexose uptake was studied with cultured human muscle cells using 2-deoxy-D-[1-3H]glucose. At a concentration of 0.25 and 4 mM, phosphorylation rather than transport was the rate-limiting step in the uptake of 2-deoxy-D-glucose. This was not due to inhibition of the hexokinase activity by either ATP depletion or 2-deoxyglucose 6-phosphate accumulation. In cellular homogenates, hexokinase showed a lower Km value for glucose as compared to 2-deoxyglucose. Intact cells preferentially phosphorylated glucose instead of 2-deoxyglucose. Therefore, transport instead of phosphorylation may be rate limiting in the uptake of glucose by cultured human muscle cells. These data suggest caution in using 2-deoxyglucose for measuring glucose transport.
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PMID:2-Deoxy-D-glucose uptake in cultured human muscle cells. 231 Jul 73

A histochemical procedure was established for the microphotometric determination of hexokinase (HK) in sections of the rat hippocampus, which served as an exemplary brain region. For this quantitative procedure, slides were coated with glucose 6-phosphate dehydrogenase (G6PDH) as an auxiliary enzyme and sections were mounted onto this enzyme film. The sections were then incubated with the following adapted incubation medium: 5 mM D-glucose, 1.5 mM NADP, 7.5 mM ATP, 4 mM nitroblue tetrazolium chloride, 10 mM NaN3, 10 mM MgCl2, 0.25 mM phenazine methosulfate, 1 U/ml G6PDH, 22% polyvinyl alcohol in 0.05 M Hepes buffer; the final pH was 7.5. A linear response of the reaction was observed in the initial 10 min of reaction (kinetic and end-point measurements). The relationship between HK activity and section thickness was linear up to 5 microns. The need for such thin sections is discussed in relation to the limited penetration of the auxiliary enzyme into the section. It is concluded that the quantitative demonstration of HK in brain sections could be a valuable tool for studying the local metabolic entrance of glucose in the glycolytic pathway.
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PMID:Microphotometric determination of enzymes in brain sections. I. Hexokinase. 231 56

Human fibroblasts from a patient homozygous for hexokinase (HK) deficiency and normal controls were submitted to different nutrient shifts to investigate the role of glucose metabolism on ATP levels. HK-deficient cells maintained in the presence of both glucose and L-glutamine had 20 per cent less ATP than controls and an ATP/ADP ratio of 18 instead of 37-40. Glucose alone was not able to maintain normal ATP levels neither in the controls nor in the HK-deficient cells. However while in control cells the ATP/ADP ratio was not modified, it was reduced to 10 in HK deficiency. The effect of several hexoses on ATP levels was also investigated. Mannose, which is metabolized by HK phosphorylation, was the least efficient for ATP maintenance in HK-deficient cells. In contrast galactose, which is metabolized by a specific galactokinase, provided ATP values close to those observed in the presence of glutamine. These results suggest that glucose metabolism is an important determinant in the maintenance of ATP levels in cultured cells and that glutamine, although being a good metabolic substrate, is not sufficient to maintain normal ATP concentrations.
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PMID:ATP modifications in hexokinase deficient fibroblasts exposed to nutrient shifts. 239 64

The effects of amylin on glucose metabolism and glycogenolysis were examined in vivo and in vitro. Eighteen-hour-fasted rats were infused with 5 nmol.kg-1.min-1 amylin and [3-3H]glucose for 120 min. Blood glucose levels increased an average of 45% during the infusion. Glucose turnover measurements indicated that the overall rate of glucose appearance (Ra) did not change, but the metabolic clearance rate of glucose was decreased by 42%. Samples of liver, gastrocnemius, and soleus muscles were freeze-clamped at the end of the infusion period and analyzed for glycogen and glucose 6-phosphate levels. Glycogen levels were decreased in all tissue samples, whereas glucose 6-phosphate was elevated in gastrocnemius and soleus muscles. Isolated soleus muscles were incubated in vitro with 200 microU/ml of insulin and 1, 10, or 100 nM amylin. Amylin treatment had no effect on 3-O-methyl-D-glucose transport; however, 2-deoxy-D-glucose uptake was inhibited by 33 or 48% at 10 or 100 nM amylin, respectively. Glycogen levels were also decreased after treatment with 10 and 100 nM amylin. Glucose 6-phosphate levels were not affected by amylin treatment in the presence of insulin but were increased nearly twofold in its absence. The data suggest that amylin stimulates glycogenolysis and inhibits glucose uptake both in vivo and in vitro and that the inhibition of glucose uptake is due to inhibition of glucose phosphorylation (i.e., hexokinase).
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PMID:Effects of amylin on glucose metabolism and glycogenolysis in vivo and in vitro. 239 78

The respective contribution of exogenous and intramitochondrially formed ATP to D-glucose phosphorylation by mitochondria-bound hexokinase was examined in both rat liver and pancreatic islet mitochondria by comparing the generation of D-glucose 6-[32P]phosphate from exogenous [gamma-32P]ATP to the total rate of D-[U-14C]glucose phosphorylation. In liver mitochondria, the fractional contribution of exogenous ATP to D-glucose phosphorylation ranged from 4 to 74%, depending on the availability of endogenous ATP formed by either oxidative phosphorylation or in the reaction catalyzed by adenylate kinase. Likewise, in islet mitochondria exposed to exogenous ATP but deprived of exogenous nutrient, about 60% of D-glucose phosphorylation was supported by mitochondrial ATP. Such a fractional contribution was further increased in the presence of ADP and succinate, and suppressed by mitochondrial poisons. It is concluded that, in islet like in liver mitochondria, mitochondrial ATP is used preferentially to exogenous ATP as a substrate for D-glucose phosphorylation by mitochondria-bound hexokinase. This may favour the maintenance of a high cytosolic ATP concentration in glucose-stimulated islet cells.
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PMID:Hexose metabolism in pancreatic islets: preferential utilization of mitochondrial ATP for glucose phosphorylation. 240 19

1. Transport and accumulation of 2-deoxy-D-glucose (2dGlc) in rat and murine peritoneal macrophages were investigated by using C-1-3H-labelled and C-2,6-3H-labelled 2dGlc. 2. There was active accumulation of both C-1- and C-2,6-labelled 2dGlc by quiescent rat and murine macrophages via a phloretin-inhibitable transport system. 3. The rate of uptake and accumulation of 2dGlc (C-1 label) was increased by exposure to human macrophage colony-stimulating factor (mCSF-1) (1000 units/ml) in both murine and rat macrophages. This indicates that mCSF-1 enhances coupling between hexokinase activity and glucose transport at the endofacial surface of the transporter. 4. Phorbol 12-myristate 13-acetate ('phorbol') at 40 nM stimulated 2dGlc in rat macrophages entirely by increasing the C-2,6 label uptake. This indicates that phorbol stimulates 2dGlc uptake mainly by increasing the activity of the pentose phosphate pathway. 5. Simultaneous exposure to phorbol and mCSF-1 stimulates 2dGlc uptake to a greater extent than found with either phorbol or mCSF-1 alone. This result is explained by a simultaneous enhancement of pentose phosphate-pathway activity and of hexokinase activity acting at the endofacial surface of the cell membrane. The dual activation of these serial processes coupled to the loss of the reaction products of the pentose phosphate-shunt pathway from the cells in the form of reactive oxygen intermediates, protons and CO2 could explain the synergistic action of phorbol and mCSF-1 in activation of sugar transport in macrophages.
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PMID:Synergistic activation of 2-deoxy-D-glucose uptake in rat and murine peritoneal macrophages by human macrophage colony-stimulating factor-stimulated coupling between transport and hexokinase activity and phorbol-dependent stimulation of pentose phosphate-shunt activity. 240 38

The effects of seven monoclonal antibodies on various functions of rat brain hexokinase (ATP:D-hexose-6-phosphotransferase, EC 2.7.1.1) have been assessed. Specifically, effects on catalytic properties (Km values for substrates, glucose and ATP X Mg2+; Ki for inhibition by glucose 6-phosphate), binding to the outer mitochondrial membrane, and glucose 6-phosphate-induced solubilization of mitochondrially bound hexokinase were examined. Epitope mapping studies with the native enzyme provided information about the relative spatial distribution of the epitopes on the surface of the native molecule. Binding of nucleotides (ATP or ATP X Mg2+) was shown to perturb the epitopes recognized by two of these antibodies. Neither nucleotides nor other ligands (glucose, glucose 6-phosphate, Pi) had detectable effect on epitopes recognized by the other five antibodies. Peptide mapping techniques in conjunction with immunoblotting permitted assignment of the epitopes recognized by several of the antibodies to specific segments within the overall primary structure. These results, together with previous work relating to the organization of structural domains within the molecule, permitted development of a three-dimensional model which provides a useful representation of major structural and immunological features of the enzyme, and depicts the association of those features with specific functions.
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PMID:Monoclonal antibodies against rat brain hexokinase. Utilization in epitope mapping studies and establishment of structure-function relationships. 241 34

The anomeric specificity of hexokinase was examined in crude homogenates of rat parotid gland, erythrocytes and pancreatic islets. At 8 degrees C, the alpha/beta ratio in maximal velocity averaged 0.73, 0.66 and 0.75 in the parotid, erythrocytes and pancreatic islets, respectively. Hexokinase displayed a greater affinity for alpha- than beta-D-glucose as judged from three criteria: the Km value, the reaction velocity measured with mixtures of the two anomers and their effect upon the phosphorylation of D-[U-14C] glucose in anomeric equilibrium. The latter procedure yielded an alpha/beta ratio in Km close to 0.51, 0.49 and 0.39 in parotid, erythrocytes and pancreatic islets, respectively. Within the limits of this study, the anomeric specificity of mammalian hexokinase would appear to be a mirror image of that of yeast hexokinase.
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PMID:Anomeric specificity of mammalian hexokinase. 243 May 36

The kinetics of the low-Km hexokinase isoenzymes, which obey the Michaelis-Menten equation, can be established from the Km (Michaelis constant) and Vmax (maximal velocity) values for either equilibrated D-glucose or its alpha- and beta-anomers. In the case of the high-Km glucokinase isoenzyme, however, the sigmoidal substrate dependency and the competition between the two anomers of D-glucose do not allow, theoretically, to assign any meaningful value to either the Km, Vmax or n (Hill number) constants for equilibrated D-glucose. Thus, with equilibrated D-glucose, the concentration dependency fails to display a rectilinear relationship in the Hill plot. These observations illustrate the shortcomings of current biochemical studies in which the anomeric heterogeneity of D-glucose is ignored.
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PMID:Anomeric specificity and kinetics of glucokinase: theoretical unsuitability of the Hill equation. 248 98

The N-terminal sequence of rat brain hexokinase (ATP: D-hexose-6-phosphotransferase, EC 2.7.1.1) has been determined to be X-NH-Met-Ile-(Ala, Gln)-Ala-Leu-Leu-Ala-Tyr-, where X is a blocking group on the N-terminal methionine, probably an N-acetyl group. Modification of this hydrophobic N-terminal segment by endogenous proteases in crude brain extracts resulted in loss of the ability to bind to mitochondria, but had no effect on catalytic activity, resulting in the appearance of nonbindable enzyme reported by several previous investigators to be present in purified hexokinase preparations. Similar results can be obtained by deliberate limited digestion with chymotrypsin (cleavage points marked by arrows in sequence above). Both bindable and nonbindable enzyme, the latter generated either by endogenous proteases or with chymotrypsin, have an identical C-terminal dipeptide sequence, Ile-Ala. The great susceptibility of the N-terminus to proteolysis plus the marked effect that its proteolytic modification has on binding of hexokinase to anion exchange or hydrophobic (phenyl-Sepharose) matrices suggest that this N-terminal segment is prominently displayed at the enzyme surface. Epitopes recognized by two monoclonal antibodies which block binding of hexokinase to mitochondria (but have no effect on catalytic activity) have been mapped to a 10K fragment cleaved from the N-terminus by limited tryptic digestion. Thus the binding of hexokinase to mitochondria appears to occur via a "binding domain" constituting the N-terminal region of the molecule, with maintenance of an intact hydrophobic sequence at the extreme N-terminus being critical to this interaction. A resulting specific orientation of the molecule on the mitochondrial surface is considered to be a prerequisite for the observed coupling of hexokinase activity and mitochondrial oxidative phosphorylation.
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PMID:An intact hydrophobic N-terminal sequence is critical for binding of rat brain hexokinase to mitochondria. 257 71

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