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)

Clones containing cDNA coding for the Type III isozyme of rat hexokinase (ATP:D-hexose 6-phosphotransferase, EC 2.7.1.1) were isolated from a library prepared in lambda gt10 with rat liver mRNA. Three clones were characterized. Their composite sequence includes the entire coding region for Type III hexokinase, 3' untranslated sequence extending into the polyadenylated region, and 80 bp of 5' untranslated sequence. Extensive similarity in sequence of N- and C-terminal halves of the enzyme, previously seen with the Type I isozyme, is consistent with the view that these 100-kDa mammalian hexokinases are the evolutionary result of duplication and fusion of a gene coding for an ancestral hexokinase having a molecular weight of approximately 50 kDa. Extensive similarities are seen between sequences of the Type I and III isozymes, and those reported for mammalian glucokinase (also called Type IV hexokinase) and for the hexokinase and glucokinase of yeast. Residues thought to be involved in catalytic function are highly conserved in all of these enzymes. Based on a quantitative comparison of sequence similarities, it is concluded that the 50-kDa mammalian glucokinase is more closely related to the 100-kDa mammalian enzymes than it is to the 50-kDa enzymes from yeast. One interpretation of this might be that the mammalian glucokinase arose by resplitting of the gene coding for the 100-kDa mammalian hexokinases.
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PMID:Complete amino acid sequence of the type III isozyme of rat hexokinase, deduced from the cloned cDNA. 189 38

It has been shown previously that glucose-induced insulin release is completely absent in rat pancreatic islets that had been cultured for 1 day at low glucose (1 mM) and that it is restored by culturing islets for a 2nd day at high (20 mM) glucose (MacDonald, M. J., Fahien, L. A., McKenzie, D. I., and Moran, S. M. (1991) Am. J. Physiol. 259, E548-E554). It has been suggested that the incapacitation of glucose's insulinotropism is due to down-regulation of the synthesis of enzymes that process glucose's metabolic signal for insulin release. In the current study, results of metabolic, enzymic, and molecular biologic experiments were each consistent with (an) intramitochondrial site(s) of down-regulation in islets cultured at low glucose. Glucose metabolism was inhibited 80% in islets cultured at 1 mM glucose. The suppression of release of 14CO2 from [6-14C]glucose greater than from [U-14C]glucose greater than [3,4-14C]glucose greater than from [1-14C]glucose in islets cultured at low glucose indicated a mitochondrial site of down-regulation because C-6 of glucose can only be converted to CO2 in the citric acid cycle, whereas C-1 can be released as CO2 in the 6-phosphogluconate dehydrogenase [corrected] reaction, and C-6 of glucose dwells in the citric acid cycle longer than carbons 2-5 of glucose. Since carbons 3 and 4 of glucose can be decarboxylated in the pyruvate dehydrogenase reaction, incomplete suppression of CO2 formation from these carbons is consistent with suppression of pyruvate carboxylation as well as decarboxylation. Formation of 3HOH from [5-3H]glucose was equal in the two groups of islets, indicating that glycolysis as far as phosphoenolpyruvate was intact. This idea was supported by assays which showed that activities of enzymes of the glycolytic pathway between glucokinase/hexokinase and pyruvate kinase were equal in both types of islets. Additional studies indicated that regulation by glucose was at transcription of genes coding for some mitochondrial enzymes. Glucokinase, malic enzyme, and fumarase mRNAs were not affected by glucose, whereas the pyruvate dehydrogenase E1 alpha subunit and pyruvate carboxylase mRNAs were decreased 85-90% in islets cultured at 1 mM glucose. Pyruvate dehydrogenase enzyme activity was decreased to a similar extent in these islets. About 24 h was required for maximal (de)induction of pyruvate dehydrogenase E1 alpha and pyruvate carboxylase mRNAs, and the amounts of transcripts were proportional to the concentrations of glucose between 1 and 20 mM.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pyruvate dehydrogenase and pyruvate carboxylase. Sites of pretranslational regulation by glucose of glucose-induced insulin release in pancreatic islets. 193 63

Rat liver contains four hexokinase isoenzymes, one of which, despite often being called 'glucokinase', is no more specific for glucose than the others. However, it does differ from them in displaying a sigmoid kinetic response to glucose, requiring much higher glucose concentrations for activity, and being insensitive to physiological concentrations of glucose 6-phosphate.
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PMID:Hexokinase and 'glucokinase' in liver metabolism. 156 28

We measured creatine kinase (CK, EC 2.7.3.2) activity in serum with a new reagent system utilizing thermostable glucokinase (EC 2.7.1.2). Automated determinations were performed with Toshiba's Model TBA-80S Biochemical Analyzer. Precision studies demonstrated within-run and between-run CVs of 0.4%-2.4% and 2.8%-3.1%, respectively. The response linearity was confirmed for CK activity up to 1000 U/L at 37 degrees C. CK activities correlated well (r = 0.997) with those obtained by the manual method recommended by the German Society for Clinical Chemistry (measuring at 37 degrees C) involving hexokinase (EC 2.7.1.1). However, CK activities measured by our method were consistently higher than those of the hexokinase method at reaction temperatures of 30, 37, and 40 degrees C. These data indicate that the new method with thermostable glucokinase is better than that with thermo-unstable hexokinase for determination of CK activity in serum.
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PMID:Automated determination of creatine kinase activity in serum with use of thermostable glucokinase. 200 55

The relative contribution of each anomer of D-glucose to the overall phosphorylation rate of the hexose tested at anomeric equilibrium was examined in rat liver postmicrosomal supernatants under conditions aimed at characterizing the activity of glucokinase, with negligible interference of either hexokinase, N-acetyl-D-glucosamine kinase or glucose-6-phosphatase (acting as a phosphotransferase). Both at 10 degrees and 30 degrees C, the relative contribution of each anomer was unaffected by the concentration of D-glucose. At both temperatures, the alpha/beta ratio for the contribution of each anomer was slightly, but significantly, lower than the alpha/beta ratio of anomer concentrations. These findings, which are consistent with the anomeric specificity of glucokinase in terms of affinity, cooperativity and maximal velocity, reveal that the preferred alpha-anomeric substrate for both glycogen synthesis and glycolysis is generated by glucokinase at a lower rate than is beta-D-glucose-6-phosphate.
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PMID:Phosphorylation by liver glucokinase of D-glucose anomers at anomeric equilibrium. 206 35

Tissue culture for one or seven days of pancreatic islets isolated from 21-day old fetal rats was found to be associated with a marked increase in the oxidation of L-(U-14C) glutamine by intact islets and in the activity of both alanine-glutamate and aspartate-glutamate transaminases as well as glutamate dehydrogenase in islet homogenates. This coincided with an increase in the relative amount of mitochondrial DNA. The activities of glucose-phosphorylating enzymes (hexokinase and glucokinase), glyceraldehyde-3-phosphate dehydrogenase and lactate dehydrogenase were less markedly increased during the culture period than those of enzymes involved in amino acid catabolism and located, in part at least, in mitochondria. The combined data suggest that the functional maturation of fetal islets during the culture period is associated with and may be attributable to a preferential maturation of their mitochondria.
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PMID:Maturation of fetal rat islet cells in vitro during tissue culture is associated with increased mitochondrial function. 213 6

Aluminum, an abundant element in the earth's crust, has been implicated in various pathological disorders and low concentrations of this element have recently been shown to inhibit brain glycolysis. However, despite the fact that aluminum accumulates in high concentrations in the liver, potential effects of this metal on hepatic intermediary metabolism have not been explored. In perfused livers from untreated rats, maximal rates of production of lactate plus pyruvate (glycolysis) were 93 +/- 15 mumols/g/hr. Glycolysis was severely inhibited in livers from aluminum-treated rats (0.5 mg/kg, 6 hr before experiment) with maximal rates of only 23 +/- 4 mumols/g/hr. In contrast, glucose production (glycogenolysis) and hepatic oxygen uptake were not altered significantly by prior treatment with aluminum. In livers from fasted rats, pretreatment with aluminum did not influence gluconeogenesis or production of lactate and pyruvate from fructose (5 mM). This finding indicates that pyruvate kinase is not inhibited by aluminum and implicates phosphofructokinase, hexokinase and/or glucokinase as sites for the inhibitory effect of aluminum on glycolysis. In liver homogenates from untreated rats, increasing concentrations of aluminum did not show any appreciable effect on hexokinase or glucokinase activity but did cause progressive decreases in phosphofructokinase activity. Therefore, aluminum-induced inhibition of liver phosphofructokinase, an important control site in the glycolytic pathway, is most likely responsible for aluminum-induced inhibition of hepatic glycolysis.
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PMID:Mechanism of aluminum-induced inhibition of hepatic glycolysis: inactivation of phosphofructokinase. 214 21

Pediococcus halophilus possesses phosphoenolpyruvate:mannose phosphotransferase system (man:PTS) as a main glucose transporter. A man:PTS defective (man:PTSd) strain X-160 could, however, utilize glucose. A possible glucose-transport mechanism other than PTS was studied with the strain X-160 and its derivative, man:PTSd phosphofructokinase defective (PFK-) strain M-13. Glucose uptake by X-160 at pH 5.5 was inhibited by any of carbonylcyanide m-chlorophenylhydrazone, nigericin, N,N'-dicyclohexylcarbodiimide, or iodoacetic acid. The double mutant M-13 could still transport glucose and accumulated intracellularly a large amount of hexose-phosphates (ca. 8 mM glucose 6-phosphate and ca. 2 mM fructose 6-phosphate). Protonophores also inhibited the glucose transport at pH 5.5, as determined by the amounts of accumulated hexose-phosphates (less than 4 mM). These showed involvement of proton motive force (delta P) in the non-PTS glucose transport. It was concluded that the non-PTS glucose transporter operated in concert with hexokinase or glucokinase for the metabolism of glucose in the man:PTSd strain.
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PMID:Non-PTS uptake and subsequent metabolism of glucose in Pediococcus halophilus as demonstrated with a double mutant defective in phosphoenolpyruvate:mannose phosphotransferase system and in phosphofructokinase. 214 14

Pancreatic islets removed from adult rats injected with streptozotocin during the neonatal period display an impaired secretory response to D-glucose and, to a lesser extent, to L-leucine. Despite normal to elevated hexokinase and glucokinase activities in the islets of these glucose-intolerant animals and despite normal mitochondrial binding of the hexokinase isoenzymes, the metabolic response to a high concentration of D-glucose is severely affected, especially in terms of D-[6-14C]glucose oxidation. Thus, the ratio in D-[6-14C]glucose oxidation/D-[5-3H]glucose utilization is much less markedly increased in response to a rise in hexose concentration and, at a high concentration of D-glucose (16.7 mmol/l), less markedly decreased by the absence of Ca2+ and presence of cycloheximide in diabetic than control rats. This metabolic defect contrasts with (1) a close-to-normal or even increased capacity of the islets of diabetic rats to oxidize D-[6-14C]glucose, [2-14C]pyruvate, L-[U-14C]glutamine and L-[U-14C]leucine at low, non-insulinotropic, concentrations of these substrates; (2) a lesser impairment of the oxidation of L-[U-14C]leucine tested in high concentration (20 mmol/l), the effect of Ca2+ deprivation upon the latter variable being comparable in diabetic and control rats; (3) an unaltered transamination of either [2-14C]pyruvate or L-[U-14C]leucine; and (4) a modest perturbation of glycolysis. The most obvious alteration in glycolysis consists in a lesser increase of the glycolytic flux in response to a rise of D-glucose concentration in diabetic than control rats, this coinciding with an apparent decrease in affinity of glucokinase for the hexose.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Impairment of the mitochondrial oxidative response to D-glucose in pancreatic islets from adult rats injected with streptozotocin during the neonatal period. 215 Jan 94

Alloxan inhibited hexokinase activity in cytoplasmic fractions of transplantable radiation-induced rat islet cell tumours, ob/ob mouse pancreatic islets, rat liver and rat kidney. Half maximal inhibitory concentrations of alloxan were greater than those previously found for half maximal inhibition of pancreatic islet or liver glucokinase. D-glucose, preferentially the alpha-anomer, and D-mannose protected hexokinase activity against alloxan inhibition. 1,4-Dithiothreitol completely protected against and partially reversed the alloxan inhibition of hexokinase. The ability of various dithiols to reverse the inhibition of hexokinase by alloxan was dependent on the spacing between the SH (thiol) groups. Only dithiols with intermediate spacing between the SH groups were effective. Dithiols with two vicinal SH groups such as 1,2-dimercaptoethane and 2,3-dimercaptopropanol (BAL) and dithiols with more widely spaced SH groups such as 1,5-dimercaptopentane were ineffective. Thus a reaction of alloxan with two SH groups in the sugar binding site of the hexokinase with the formation of a disulfide bond may be involved in the reversible inhibition of the enzyme. Ninhydrin also inhibited hexokinase from all four tissues studied. The half maximal inhibitory concentrations of ninhydrin were lower than those of alloxan. Inhibition of hexokinase may be an important factor in the general cytotoxic action of ninhydrin. However, inhibition of pancreatic islet hexokinase is unlikely to be the initial event in the pancreatic B-cell toxic action of alloxan, even if inhibition of hexokinase by high concentrations of alloxan may contribute to the B-cell toxic action.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alloxan and ninhydrin inhibition of hexokinase from pancreatic islets and tumoural insulin-secreting cells. 218 63


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