Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.1.1 (hexokinase)
 5,274 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

D-mannoheptulose, but not its hexaacetate ester, inhibits, in a competitive manner, D-glucose phosphorylation by either purified beef heart hexokinase or crude parotid gland homogenates. Yet, D-mannoheptulose hexaacetate, but neither the unesterified heptose nor acetate or its methyl ester, inhibits D-[5-3H]glucose utilization and D-[U-14C]glucose conversion to 14CO2 and 14C-labelled acidic metabolites and amino acids in intact isolated parotid cells. It is proposed, therefore, that D-mannoheptulose hexaacetate crosses efficiently the plasma membrane of parotid cells and, after intracellular hydrolysis, allows inhibition of D-glucose phosphorylation by the unesterified heptose. The ester of D-mannoheptulose could thus represent a useful tool to inhibit hexose phosphorylation and interfere with cell growth in cells otherwise resistant to the heptose.
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PMID:Esterification of D-mannoheptulose confers to the heptose inhibitory action on D-glucose metabolism in parotid cells. 955 24

D-mannoheptulose is currently used as a tool to inhibit, in a competitive manner, D-glucose phosphorylation, metabolism and functional effects in the pancreatic islet B-cell. In order to better understand the mode of action of the heptose, we have explored its effect upon D-glucose phosphorylation in liver, parotid cells and islet homogenates, this allowing to characterize the interference of the heptose with glucokinase and/or hexokinase. The effect of D-mannoheptulose upon the metabolism of D-glucose was also examined in both intact parotid cells and pancreatic islets. Last, the effect of D-mannoheptulose upon glucose-stimulated insulin release was reinvestigated over large concentration ranges of both the heptose and hexose. The experimental data revealed a mixed type of D-mannoheptulose inhibitory action upon D-glucose phosphorylation, predominantly of the non-competitive and competitive type, in liver and parotid homogenates, respectively. Despite efficient inhibition of hexose phosphorylation in both parotid cell and islet homogenates, the heptose suppressed the metabolic and functional responses to D-glucose only in pancreatic islets, whilst failing to affect adversely D-glucose catabolism in parotid cells. These findings suggest that factors such as the intracellular transport and availability of the heptose may interfere with the expression of its antagonistic action upon D-glucose metabolism.
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PMID:Interference of D-mannoheptulose with D-glucose phosphorylation, metabolism and functional effects: comparison between liver, parotid cells and pancreatic islets. 978 48

D-mannoheptulose, which inhibits hexokinase isoenzymes in a predominantly competitive manner, has been found to decrease much more modestly D-glucose metabolism in pancreatic islets exposed to a low, as distinct from high, concentration of the hexose. In the present study, which aimed at investigating the factor(s) possibly responsible for such a phenomenon, a comparable situation was found to prevail in rat hepatocytes. However, when the hexaacetate ester of D-mannoheptulose was used instead of the unesterified heptose, the relative extent of inhibition of D-[5-3H]glucose utilization and D-[U-14C]glucose conversion to 14C-labelled acidic metabolites was comparable in hepatocytes exposed to either 1.7 or 8.3 mM D-glucose. Moreover, at the low D-glucose level, the incorporation of 3-O-methyl-D-glucose (6.6 mM) into the incubation medium increased the inhibitory action of unesterified D-mannoheptulose upon D-glucose metabolism. These findings suggest that an insufficient uptake of the heptose accounts, in part at least, for its poor efficiency as inhibitor of D-glucose catabolism in liver, and presumably islet cells exposed to low concentrations of the hexose.
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PMID:Effects of D-mannoheptulose and its hexaacetate ester upon D-glucose metabolism in rat hepatocytes. 985 32

The possible use of D-mannoheptose or D-glycero-D-gulo-heptose as substitute of D-mannoheptulose for specific inhibition of D-glucose phosphorylation, metabolism and insulinotropic action was investigated in the present study. The two aldoheptoses failed to duplicate the effect of D-mannoheptulose upon the phosphorylation of D-glucose by yeast hexokinase, bovine heart hexokinase or human B-cell glucokinase. They were poorly phosphorylated by the low-Km hexokinase isoenzymes or liver B-cell glucokinase. D-mannoheptose failed to reproduce the inhibitory action of D-mannoheptulose upon D-glucose metabolism by isolated rat pancreatic islets. Whilst D-glycero-D-gulo-heptose failed to affect glucose-induced insulin release, D-mannoheptose slightly enhanced glucose-induced insulin release when tested at low concentrations (0.75-1.5 mM) and progressively decreased insulin output at higher concentration (3. 0-20.0 mM) in islets exposed to a high (16.7 mM), but not physiological (8.3 mM), concentration of D-glucose. D-mannoheptose, however, also caused a modest inhibition of insulin release evoked by 2-ketoisocaproate. It is concluded, therefore, that neither D-mannoheptose nor D-glycero-D-guloheptose can be considered as suitable substitutes of D-mannoheptulose.
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PMID:Effects of D-mannoheptose and D-glycero-D-gulo-heptose upon D-glucose metabolism and insulinotropic action in rat pancreatic islets and D-glucose phosphorylation by hexokinase isoenzymes: comparison with D-mannoheptulose. 1089 61

D-mannoheptulose is a specific inhibitor of D-glucose phosphorylation by hexokinase isoenzymes. In the present study, the phosphorylation of this heptose was investigated by either a spectrophotometric or radioisotopic procedure. Using yeast hexokinase, the phosphorylation of 25 mM D-mannoheptulose only represented 0.02% of that of 5 mM D-glucose. Such a percentage was increased to 3.93% in the case of bovine heart hexokinase. In the latter case, the Km for D-mannoheptulose was close to 0.2 mM and both D-glucose (0.1-1.0 mM) and D-glucose 6-phosphate (also 0.1-1.0 mM) inhibited the phosphorylation of the heptose (0.03-0.60 mM). Human B-cell glucokinase also catalyzed the phosphorylation of D-mannoheptulose (0.1 mM), which was now increased in a bell-shaped manner by D-glucose (1.0-20 mM). Likewise, rat parotid gland, liver and pancreatic islet homogenates catalyzed the phosphorylation of D-[3H]mannoheptulose. The results obtained in these three tissues differed from one another by their absolute values (per mg wet wt.), relative values (by reference to the phosphorylation rate of 10 mM D-glucose), and sensitivity to inhibition by D-glucose (10 mM).
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PMID:D-mannoheptulose phosphorylation by hexokinase isoenzymes. 1125 73