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)

Much of the literature on the uptake of glucose by untransformed and transformed animal cells is based on experiments carried out with 2-deoxy-D-glucose (2-DOG). Results obtained with this analog can be ambiguous, since 2-DOG can be phosphorylated by hexokinases of animal cells. An intracellular trapping mechanism is thus provided. Therefore, the total flux of 2-DOG into the cell is a resultant of both transport and hexokinase action, and the measurement of total 2-DOG incorporation is a valid measurement of transport only if 2-DOG is phosphorylated as rapidly as it enters the cell. Evidence is presented here that this is not necessarily the case, significant levels of free intracellular 2-DOG approaching external concentrations were found in untransformed and transformed mouse 3T3 cells even at early times during uptake. Differences in total intracellular 2-DOG between untransformed and transformed cells were accounted for entirely by 2-deoxyglucose phosphate. Thus, it appears the apparent increase of 2-DOG uptake accompanying transformation in these cell lines is not due to an effect on the transport process, but on enhanced phosphorylation, which is a reflection of an alteration in the regulation of glycolysis. The ambiguity introduced by phosphorylation can be oviated by the use of an analog that cannot be phosphorylated, such as 3-O-methyl-D-glucose. The rate of transport and efflux of this sugar was not found to be different in untransformed versus transformed 3T3 cells. Moreover, deficiencies of this analog as a substrate for the glucose transport system are pointed out.
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PMID:Is glucose transport enhanced in virus-transformed mammalian cells? A dissenting view. 18 43

The metabolism of 2-deoxy-D-galactose has been studied in AS-30D rat ascites hepatoma cells in suspension. Using 2-deoxy-D-(1-14C)galactose and an alkaline ethanol deproteinization procedure, the quantitatively identified metabolites included 2-deoxy-D-galactose 1-phosphate comprising 99.3%, and UDP-2-deoxy-D-galactose and UDP-2-deoxy-D-glucose, together amounting to 0.4% of the total metabolites. After incubation for 5 h in the presence of 2-deoxy-D-galactose (1 mmo1/1), the content of 2-deoxy-D-galactose 1-phosphate reached 35 mmo1x(kg cells)-1. The rate of phosphorylation of 2-deoxy-D-galactose was rapid during the first 30 min and decreased to approximately 20% of this rate during the subsequent hours. The rapid trapping of Pi in the form of 2-deoxy-D-galactose 1-phosphate resulted in a depression of free intracellular Pi in spite of a concomitant increase in net 32Pi uptake from the medium and a decrease of ATP and other 5'-nucleotides. The rates of glucose utilization and lactate production were depressed by more than 80% in the presence of 2-deoxy-D-galactose (1 mmo1/1). Interruption of Pi trapping by removal of 2-deoxy-D-galactose from the medium reversed the depressions of Pi and ATP and resulted in a rapid but incomplete relief of glycolysis inhibition. Crossover analysis of glycolytic intermediates indicated an inhibition at the 6-phosphofructokinase step. The depression of glucose utilization may be mediated by the increased level of glucose 6-phosphate, a potent inhibitor of hexokinase. An additional inhibitory effect of a metabolite of 2-deoxy-D-galactose at the 6-phosphofructokinase step was indicated by crossover analysis after reversal of Pi and ATP depressions in the presence of a high intracellular content of 2-deoxy-D-glactose 1-phosphate. The quantitative analysis of the metabolites of 2-deoxy-D-galactose demonstrated the predominance of the monophosphate and the negligible formation of UPD derivatives of this sugar analog in AS-30D hepatoma cells. This provides a system for the investigation of a galactose analog as a phosphate-trapping agent in the virtual absence of uridylate trapping.
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PMID:2-Deoxy-D-galactose metabolism in ascites hepatoma cells results in phosphate trapping and glycolysis inhibition. 19 12

The administration of dexamethasone to rats markedly diminished the initial rate and maximal extent of substrate-dependent calcium uptake in subsequently isolated liver mitochondria, and enhanced the release of calcium. The apparent Km for calcium transport was not altered by dexamethasone treatment and it ranged from 50 to 80 muM when an EDTA/Ca buffer system was used in the presence of magnesium, and 20 muM when an NTA/Ca buffer system without magnesium was employed. In contrast, when ATP was employed as the energy source, there was no significant difference in initial rate, Km, or the extent of calcium accumulation between mitochondria from control and dexamethasone-treated animals. Although mitochondria from dexamethasone-treated animal showed 15% less cytochrome c oxidase activity/mg of protein, overall respiratory capacity and ATP production from ADP were the same as in control mitochondria. However, mitochondria from dexamethasone-treated animals translocated ATP from inside to outside faster than those from control animals. When the ATP in the medium was depleted by glucose and hexokinase, both types of mitochondria retained essentially all the preloaded calcium until total ATP reached a critical level (7 approximately 5 mumol of ATP/mg of protein). When ATP content fell below this critical level, mitochondria released all the calcium quickly. Dexamethasone treatment increased the susceptibility of mitochondria to the depletion of ATP. These data indicate that the dexamethasone-induced decrease in maximal calcium transport and in calcium retention carrier system per se, but o an altered ability of the mitochondria to regulate intramitochondrial ATP content.
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PMID:Adrenal glucocorticoids, adenine nucleotide translocation, and mitochondrial calcium accumulation. 19 Feb 24

The total activity of hexokinase (HK) and HK isoenzymic spectrum of the normal liver and slowly groming hepatoma 49 did not show any essential differences. However, the HK total activity and the relative and absolute contents of isoenzyme HK-3 were increased in hepatomas 61 and especially in the rapidly growing hepatoma 22-a. The glucokinase activity decreases in the hepatiomas 49 and 61 and disappears in the rapidly growing hepatoma 22-a. The glucose content in hepatoma 49 was slightly lower than in the normal liver, whereas in other hepatoma no traces of glucose could be detected. At low glucose concentration in the medium (0,1 mM), i.e. under conditions simulating those characteristic of tumors in vivo, the predominant form of HK in all hepatomas studied was found to be HK-3. In the liver of hepatoma-bearing mice some shifts in the value of total HK activity and its isoenzymic spectrum, reminding one of those found in hepatomas themselves, were observed. Unequal deviations in the total HK activity and its isoenzymic spectrum in hepatomas with different degrees of malignancy indicate that these characteristics are secondary rather than primary events depending on tumour progression.
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PMID:[Some characteristics of isoenzymic spectrum of hexokinase and glucose levels in hepatomas and liver of the host]. 19 29

Electrophoretic study of hexokinase (HK) associated with the soluble fraction of mouse transplantable hepatoma 22a revealed that almost all bands of HK activities overlapped the bands of glucose-6-P dehydrogenase (G6PDH) activities in the gels. Similar results were obtained for liver, muscle and brain soluble fractions, as well as for various extracts from hepatoma 22a mitochondria and commercial preparation of yeast HK. A single type of HK, which does not overlap G6PDH activity, was located between types I and II (according to the Katzen classification) as a diffuse band of 1 hour manifestation. A possibility of structural organization of glycolytic enzymes in the cell essential for the quantitative estimation of the isozyme pattern is discussed.
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PMID:[On hexokinase isozymes]. 19 40

The action of free fatty acids on glycolytic enzymes was compared in normal and neoplastic tissues. Preincubation of tissue supernatant fractions with octanoate or laurate caused an inhibition of the activities of hexokinase and phosphofructokinase. An inhibition was also observed of lactate production with either glucose or glucose 6-phosphate as substrate. A similar degree of inhibition was observed for actions on normal liver and kidney, on the 7800 and 3924-A hepatomas and on the MK-3 renal cortical tumor. The possible relationship between the inhibition of glycolytic enzymes by fatty acids and anti-tumor activity previously observed with these compounds was noted.
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PMID:Inhibition of glycolytic enzymes of rat liver and hepatomas by free fatty acids. 19 94

It is established that in embryos incubated until the early blastula stage in the solution of insulin with addition of cycloheximide or puromycin, there is neither a decrease in the hexokinase and glucose-61 phosphate dehydrogenase activities nor an increase in the phosphofructokinase activity, as it is shown under the influence of insulin only. Puromycin removes an inhibitory effect of insulin on the glucose-6-phosphatase activity, and actinomycin D removes this influence with respect to glucose-6-phosphate dehydrogenase and glucose-6-phosphatase activities. The addition of antibiotics removes inhibition of the hexokinase, glucose-6-phosphate dehydrogenase and glucose-6-phosphatase activities by the hormone in the unfertilized eggs as well. Actinomycin D alone inhibits the hexokinase and activates the phosphofructokinase activities in the embryos and eggs, puromycin decreases their hexokinase activity and cycloheximide has the same effect on the glucose-6-phosphatase activity in the embryos only.
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PMID:[Effect of insulin on activity of carbohydrate metabolism enzymes in loach embryos in early development]. 19 74

Reaction of ADP with hexamethylene diisocyanate in hexamethylphosphoramide followed by treatment in an acidic medium afforded three new adenine nucleotide analogues, N6-[N-(6-aminohexyl)carbamoyl]-ADP, N6-[N-(6-aminohexyl)carbamoyl]-ATP, and N6-[N-(6-aminohexyl)carbamoyl]-AMP in yields of 13%, 12% and 17%, respectively. The occurrence of the ATP analogue may be interpreted in terms of the equilibrium, 2ADP = ATP + AMP. Coenzymic activities of the ADP analogue against acetate kinase and pyruvate kinase were 82% and 20%, respectively, relative to ADP and those of the ATP analogue against hexokinase and glycerokinase were 63% and 87%, respectively, relative to ATP. These analogues were bound to CNBr-activated soluble dextran through their terminal amino group to give an immobilized ADP and an immobilized ATP, each of which was recycled in a system comprising acetate kinase and hexokinase, and when placed in a membrane reactor together with the enzymes, functioned as an immobilized coenzyme continuously yielding glucose 6-phosphate. A series of chemically defined affinity adsorbents were obtained by coupling these analogues to CNBr-activated Sepharose, and were used to separate the enzymes in a mixture of hexokinase, pyruvate kinase, phosphoglycerate kinase, lactate dehydrogenase, and alcohol dehydrogenase.
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PMID:Preparation of N6-[N-(6-aminohexyl) carbamoyl]-adenine nucleotides and their application to coenzymically active immobilized ADP and ATP, and affinity adsorbents. 19 56

Mutants with defective carbon catabolite repression have been isolated in the yeast Saccharomyces cerevisiae using a selective procedure. This was based on the fact that invertase is a glucose repressible cell wall enzyme which slowly hydrolyses raffinose to yield fructose and that the inhibitory effects of 2-deoxyglucose can be counteracted by fructose. Repressed cells were plated on a raffinose--2-doexyglucose medium and the resistant cells growing up into colonies were tested for glucose non-repressible invertase and maltase. The yield of regulatory mutants was very high. All were equally derepressed for invertase and maltase, no mutants were obtained with only non-repressible invertase synthesis which was the selected function. A total of 61 mutants isolated in different strains were allele tested and could be attributed to three genes. They were all recessive. Mutants in one gene had reduced hexokinase activities, the other class, located in a centromere linked gene, had elevated hexokinase levels and was inhibited by maltose. Mutants in a third gene were isolated on a 2-deoxyglucose galactose medium and had normal hexokinase levels. A partial derepression was observed for malate dehydrogenase in all mutants. Isocitrate lyase, however, was still fully repressible.
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PMID:Mutants of Saccharomyces cerevisiae resistant to carbon catabolite repression. 19 90

A tumorigenic anchorage-dependent cell line (H-91) was established in culture from an azo-dye-induced rat ascites hepatoma. When grown in a glucose-containing medium the cells exhibit high rates of lactic acid production characteristic of rapidly growing tumor cells. However, when glucose is replaced with galactose the cells grow equally well but exhibit only moderately elevated rates of lactic acid production. The molecular basis for this observation cannot be attributed to differences in permeability because initial rates of glucose and galactose entry into hepatoma cells are identical. Rather, the activity of hexokinase (ATP:D-hexose 6-phosphotransferase, EC 2.7.1.1) is found to be high in hepatoma cells, about 20-fold higher than that of control and regenerating rat liver. Moreover, tumor hexokinase activity is not inhibited by low concentrations (<0.6 mM) of the reaction product glucose 6-phosphate. Additionally, 50% of the hexokinase activity of hepatoma cells is found associated with the mitochondrial fraction. This fraction is 3-fold enriched in hexokinase activity relative to the homogenate and 4-fold enriched relative to the nuclear and postmitochondrial fractions. Tumor mitochondrial hexokinase appears to be coupled directly to oxidative phosphorylation, because addition of glucose to respiring hepatoma mitochondria (after a burst of ATP synthesis) results in stimulation of respiration. In contrast, glucose has no effect on the respiration of mitochondria from control and regenerating liver. These results suggest that the high glycolytic capacity of H-91 hepatoma cells is due, at least in part, to an elevated form of hexokinase concentrated in the mitochondrial fraction of the cell.
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PMID:High aerobic glycolysis of rat hepatoma cells in culture: role of mitochondrial hexokinase. 19 1


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