EC:2.7.1.1 - FACTA Search

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)

Extracellular ATP at 10 microM increased the concentration of cytoplasmic free Ca2+ ( [Ca2+]i) 3-fold in human neutrophils. The [Ca2+]i was measured by fura-2 fluorescence. The effect was rapid but transient: [Ca2+]i reached a maximum within 10 s and then returned to its resting value after 2-3 min. The rise in [Ca2+]i elicited by ATP was unaffected by the removal of extracellular Ca2+, indicating that the primary source of Ca2+ is from intracellular stores. In contrast to ATP, neither ADP nor AMP, at concentrations as high as 100 microM, caused any detectable changes in [Ca2+]i. Among other nucleotide triphosphates tested, UTP was as effective as ATP in causing a transient rise in [Ca2+]i, and prevented a subsequent response to ATP. Similarly, ATP prevented a subsequent response to UTP but the second response could be obtained when the initially added ATP was removed by the addition of hexokinase. Phorbol myristate acetate, the activator of Ca2+, phospholipid-dependent protein kinase, completely inhibited the ATP-induced increases in [Ca2+]i without affecting the basal [Ca2+]i level. The results suggest that extracellular ATP stimulates human neutrophils by causing the release of calcium from intracellular storage pools by mechanisms which can be inhibited by phorbol myristate acetate.
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PMID:ATP-induced calcium mobilization in human neutrophils. 249 55

The interaction of cyclopiazonic acid with rat skeletal muscle sarcoplasmic reticulum (SR) vesicles was investigated in order to study the mechanism of cyclopiazonic acid inhibition of the Ca2+-ATPase (Goeger et al., Biochem Pharmacol 37: 978-981, 1988). Cyclopiazonic acid at 25 microM prevented the binding of Ca2+ to the high affinity binding site of mixed (light and heavy) SR vesicles and inhibited, in a dose-dependent manner, the Ca2+-dependent phosphorylation of SR vesicles by ATP. Binding of Ca2+ to the high affinity site of the CA2+-ATPase is necessary for both Ca2+ transport and for phosphorylation of the Ca2+-ATPase. We conclude that inhibition of Ca2+ binding to the high affinity site may be responsible, at least in part, for the activity of cyclopiazonic acid. The mechanism of inhibition remains unclear. The inhibition was not reduced after dialysis and was only partially reversed by gel filtration of SR vesicles treated with cyclopiazonic acid. Neither 1 mM glutathione nor dithiothreitol pretreatment had any effect on the inhibition of the Ca2+-ATPase. In addition to its inhibition of Ca2+ uptake and the Ca2+-ATPase, cyclopiazonic acid had significant effects on Ca2+ efflux from both passively and actively loaded SR vesicles. Cyclopiazonic acid impeded the efflux of Ca2+ from passively loaded SR vesicles (in the presence of ruthenium red) when compared to either untreated vesicles or those treated with mersalyl acid, a mercurial which also inhibits the Ca2+-ATPase and is known to induce Ca2+ release by both ruthenium red-sensitive and -insensitive pathways. Treatment of actively loaded vesicles with cyclopiazonic acid resulted in a decreased rate of Ca2+ efflux when compared to SR vesicles in which the Ca2+-ATPase activity was inhibited by ATP depletion with hexokinase and glucose. The results are consistent with the hypothesis that, in mixed SR vesicles, cyclopiazonic acid inhibits both the Ca2+ pump and Ca2+ efflux.
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PMID:Interaction of cyclopiazonic acid with rat skeletal muscle sarcoplasmic reticulum vesicles. Effect on Ca2+ binding and Ca2+ permeability. 253 15

We have examined the effect of second messengers on ATP-driven H+ transport in an H+ ATPase-bearing endosomal fraction isolated from rabbit renal cortex. cAMP (0.1 mM) had no effect on H+ transport. Acridine orange fluorescence in the presence of 0.5 mM Ca2+ (+1 mM EGTA) was 19 +/- 6% of control. Inhibition of ATP-driven H+ transport by Ca2+ was concentration dependent; 0.25 and 0.5 mM Ca2+ (+1 mM EGTA) inhibited acridine orange fluorescence by approximately 50 and approximately 80%, respectively. Ca2+ also produced a concentration-dependent increase in the rate of pH-gradient dissipation. Ca2+ did not affect ATP hydrolysis. ATP-dependent Br- uptake was virtually unchanged in the presence of 0.5 mM Ca2+ (+1 mM EGTA). These vesicles were also shown to transport Ca2+ in an ATP-dependent mode. Inositol 1,4,5-trisphosphate had no effect on ATP-dependent Ca2+ uptake. These results are consistent with the co-existence of an H+ ATPase and an H+/Ca2+ exchanger on these endosomes, the latter transport system using the H+ gradient to energize Ca2+ uptake. Attempts to demonstrate an H+/Ca2+ antiporter in the absence of ATP have been unsuccessful. Yet, when a pH gradient was established by preincubation with ATP and residual ATP was subsequently removed by hexokinase + glucose, stimulation of Ca2+ uptake could be demonstrated. A Ca2(+)-dependent increase in H+ permeability and an ATP-dependent Ca2+ uptake might have important implications for the regulation of vacuolar H+ ATPase activity as well as the homeostasis of cytosolic Ca2+ concentration.
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PMID:H+/Ca2+ exchange in rabbit renal cortical endosomes. 253 22

The effect of Ca2+-homopantothenate (HOPA) treatment (250 mg/kg for 5 d) has been studied by evaluating the specific activity of enzymes related to: glycolytic pathway (hexokinase, phosphofructokinase, pyruvate kinase, lactate dehydrogenase), tricarboxylic acid cycle (citrate synthase, malate dehydrogenase), mitochondrial electron transfer chain (succinate dehydrogenase, cytochrome oxidase), NADH redox state (NADH cytochrome c reductase), acetylcholine metabolism (acetylcholinesterase), and glutamate metabolism (glutamate dehydrogenase). The enzymatic activity assays were performed on homogenate in toto, nonsynaptic mitochondria and synaptosomes isolated from: cerebral cortex, hippocampus, striatum, hypothalamus, medulla oblongata, and cerebellum of normoxic rats and rats submitted to intermittent normobaric hypoxia (90:10, N2:O2). In normoxic rats, HOPA was unable to induce any modification. Hypoxia per se induced a decrease in the activity of synaptosomal cytochrome oxidase in cerebral cortex, hippocampus, and cerebellum.
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PMID:Effect of Ca2+-homopantothenate and mild hypoxia on some enzyme activities evaluated in subcellular fractions from different rat brain regions. 254 16

When temperature differences are taken into account, turtle brains use glucose at one-sixth the rate reported in rat brains. Na+-K+-ATPase activities are 2- to 2.5-fold higher in rat than in turtle brains. Maximal activities of hexokinase and lactate dehydrogenase are similar, whereas citrate synthase activities are two- to threefold higher in rat than turtle brains at the respective biological temperatures. Voltage-dependent Ca2+ channel densities, when compared between the two species, showed no consistent pattern. These data, along with the threefold differences in density of voltage-dependent Na+ channels reported by Lutz et al., are consistent with the idea that lower rates of channel and pump-mediated Na+ and K+ fluxes result in lower rates of aerobic energy metabolism in turtle brains compared with rat brains.
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PMID:Turtles and rats: a biochemical comparison of anoxia-tolerant and anoxia-sensitive brains. 255 54

To what extent can damage to the central and peripheral nervous systems be ascribed to chronic aluminum (Al) intoxication taken as a chelating agent for phosphorus, to limit hyperphosphatemia in uremic patients? Since Al is normally eliminated by the renal route, its accumulation in uremia has to be ascribed to a reduced or abolished renal clearance of the metal, which results in preferential toxicity for certain tissues, especially nervous tissue, which shows difficulty in eliminating Al, even after intake has been stopped. This review discusses, on the basis of toxicologic, experimental and clinical data, the possible pathogenic steps of Al neurotoxicity in uremia, considering: the damage to axonal transport in which Al intoxication tends to affect the components of the cytoskeleton, the polymerization phase of the alpha and beta tubulin constituents of neurotubules, and the normal translocation of neurofilaments from the perikaryon to more distal positions of the axon; the abnormalities in the brain pool of adrenergic, cholinergic and GABA neurotransmitters; the increase in permeability and changes in perm-selectivity of the blood-brain-barrier, with further loss of neurotransmitters and with acquisition, from the systemic circulation, of neurotransmitter-like substances such as hormones, monoamines and peptides, which may adversely modulate synaptic and membrane functions; the cerebral energy metabolism and particularly the hexokinase reaction, by Al replacement of the Mg-ion in the Mg-ATP complex, so that phosphorylation of glucose to G6P is blocked; the interaction of Al with calmodulin by displacement of the Ca-ion and subsequent formation of a stable Al-calmodulin complex with a cytotoxic effect due to the increase in the intracellular calcium concentration.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[The physiopathologic bases of the neurotoxicity of phosphorus chelating agents containing soluble aluminum salts in patients with renal insufficiency]. 266 59

We show in the accompanying paper that the steady-state level of free Ca2+ maintained by the organelles of permeabilized RINm5F insulinoma cells varies inversely with the ATP/ADP ratio when this ratio is set by addition of creatine phosphokinase and fixed ratios of creatine to creatine phosphate. We, therefore, asked whether acute cyclic alterations in the cytosolic ATP/ADP ratio in the range known to modulate O2 consumption might be involved in regulating the physiological activity of Ca2+ -ATPases and the cytosolic free Ca2+ level. To explore this hypothesis we combined two experimental systems: 1) permeabilized RINm5F insulinoma cells that can maintain a low medium Ca2+ concentration and 2) a cell-free extract of rat skeletal muscle that spontaneously exhibits oscillatory behavior of glycolysis and linked oscillations in the ATP/ADP ratio, when provided with glucose. The free Ca2+ level maintained by the permeabilized cells oscillated in phase with the glycolytic oscillations and correlated closely with the ATP/ADP ratio but not with glucose 6-phosphate, fructose 6-phosphate, orthophosphate, or pH. When glucokinase replaced hexokinase as the glucose phosphorylating enzyme, Ca2+ oscillations were induced by increasing the glucose concentration from 2 to 8 mM. The results demonstrate a link between metabolite changes and free Ca2+ levels in a reconstituted physiological system. They support a model in which oscillations in glycolysis and the ATP/ADP ratio may cause oscillations in cytosolic free Ca2+, beta-cell electrical activity, and insulin release.
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PMID:Linked oscillations of free Ca2+ and the ATP/ADP ratio in permeabilized RINm5F insulinoma cells supplemented with a glycolyzing cell-free muscle extract. 283 Dec 25

The post-mortem stability of some brain enzymes was studied. Over the time period under examination, the cytoplasmic enzymes investigated underwent a decisive decay, hexokinase being the most labile and acylphosphatase the most stable. On the other hand, structured activities such as Na+, K+-ATPase and Ca2+, Mg2+-ATPase showed an apparent transitory increase. The differences in post-mortem stability of soluble enzymes could be ascribed, at least in part, to their different susceptibility toward proteolytic activities, as suggested by the electrophoretic results.
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PMID:Post-mortem modifications of the specific activity of some brain enzymes. 283 61

The present investigation has attempted to define in rat liver mitochondria the distribution of outer membrane proteins in relation to the inner membrane by fractionation with digitonin and phospholipase A2. Porin, the channel-forming protein in the outer membrane, was measured quantitatively by immunological methods. Neither monoamine oxidase nor porin could be released by phospholipase A2 treatment, but both were released by digitonin, at the same detergent concentration. Thus, the release of monoamine oxidase and porin requires the disruption of the cholesterol but not the phospholipid domains of the membrane and the two polypeptides exist in the same, or similar, membrane environment with regard to cholesterol. Changes in the energy state, or binding of brain hexokinase to rat liver mitochondria prior to fractionation with digitonin, did not alter the release patterns of porin and monoamine oxidase. The uptake of Ca2+, however, resulted in the concomitant release of the outer membrane markers together with the matrix marker, malate dehydrogenase. The present findings with liver differ from those obtained recently with brain mitochondria (L. Dorbani et al. (1987) Arch. Biochem. Biophys. 252, 188-196) in which two populations of porin were located in two different cholesterol domains. The significance of these differences in the location of porin in liver and brain mitochondria is discussed.
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PMID:Studies on the relationship between the inner and outer membranes of rat liver mitochondria as determined by subfractionation with digitonin. 284 28

Rat brain cytosolic and mitochondrial hexokinase activities were undetectable without added divalent cations. Mg2+ activated cytosolic (K0.5 of Mg2+ = 343 +/- 13 microM) and mitochondrial (K0.5 of Mg2+ = 183 +/- 8 microM) hexokinase in a concentration-related manner. The corresponding values for Mn2+ were 702 +/- 99 and 413 +/- 21 microM respectively. Ca2+, however, activated both forms of hexokinase poorly. In the presence of Mg2+, both Mn2+ and Cu2+ were more potent inhibitors of cytosolic hexokinase than mitochondrial hexokinase, whereas the inhibition of Cd2+ and Ca2+ did not show such selectivity. These results demonstrate that brain mitochondrial and cytosolic hexokinases differ significantly in their responses to divalent cations.
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PMID:Differences in the responses of brain cytosolic and mitochondrial hexokinases to three essential divalent metal ions. 286 Oct 10

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