Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: DrugBank:EXPT03226 (vitamin E)
17,558 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have established that Mg++ activated ATPase in red cells of rabbits is not changed by vitamin E injection, even if the mechanical resistance of these red cells is increased. Enzyme activity, however, cannot be correlated with this increased mechanical resistance. Probably, the effect of vitamin E on membrane lipids may be supposed to exist, though its effect on membrane proteins cannot be fully excluded.
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PMID:[Effect of vitamin E on the mechanical fragility and the Mg++-ATPase of rabbit erythrocytes]. 8 73

The effects of vitamin E deficiency on membrane integrity were studied by examining the temperature dependence of membrane-bound enzyme activities in liver mitochondria and microsome and in muscle sarcoplasmic reticulum. In vitamin E-deficient rabbits, the specific activities at 37 degrees of mitochondrial oligomycin-sensitive ATPase (EC 3.6.1.3), beta-hydroxybutyrate dehydrogenase (EC 1.1.1.30), and microsomal glucose-6-phosphatase (EC 3.1.3.9) were increased, whereas those of microsomal NADH cytochrome C reductase (EC 1.6.99.3) and sarcoplasmic reticulum Ca-ATPase were reduced in comparison to control rabbits. Arrhenius plots of activity against temperature yielded a linear plot over the range 10 to 40 degrees in the case of beta-hydroxybutyrate dehydrogenase, NADH cytochrome C reductase and Ca-ATPase, and multiple discontinuities for glucose-6-phosphatase and oligomycin-sensitive ATPase. In control rabbits, all five enzymes showed a single discontinuity in the Arrhenius plot over the range 16 to 19 degrees. These results reflect changes in the microenvironment of membrane-bound enzymes as a consequence of vitamin E depletion.
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PMID:Effects of vitamin E deficiency on the activities of lipid-requiring enzymes in rabbit liver and muscle. 22 Mar 97

The effects on red blood cells of superoxide dismutase (Cu,ZnSOD) depletion, induced by feeding Wistar rats with a copper deficient diet, were investigated. SOD depleted red blood cells were more sensitive to peroxidation and to hemolysis than normal cells when exposed to tert-butylhydroperoxide (t-BOOH). Membranes isolated from SOD depleted cells showed a lower content of vitamin E and higher (Na+, K+) and Mg2+ ATPase activities. These results support the view that superoxide dismutase plays an important role in cellular oxidative metabolism.
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PMID:Enhanced sensitivity to oxidative stress in Cu,ZnSOD depleted rat erythrocytes. 131 Dec 7

ESR spin trapping technique was used to detect and analyze free radical formation. When 6-hydroxydopamine (6-OHDA) was incubated alone or in the presence of a free radical generating system (H2O2 and FeSO4), hydroxyl free radicals were observed in a concentration-dependent manner. Glutathione was found to be the most effective scavenger of the ESR signal when compared with vitamin E or Mannitol. The addition of ethanol resulted in the formation of the pure hydroxyethyl free radicals. The amount of hydroxyethyl free radicals in the system was dependent upon the concentration of ethanol and the formation of hydroxyethyl free radicals correlated well with the extent of lipid peroxidation and the loss of enzymic activity of the membrane-bound (Na+,K+)-ATPase. We suggest that in the biological system ethanol may potentiate the neurotoxicity of 6-OHDA with the formation of hydroxyethyl free radicals, which are longer-lived and far more damaging to membranes than the hydroxyl radicals. These data lead us to further hypothesize that the neuronal degeneration caused by 6-OHDA and other compounds that generate free radicals could be potentiated in the presence of ethanol.
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PMID:The involvement of ethanol in the free radical reaction of 6-hydroxydopamine. 164 70

It is found that the amount of saturated fatty acids grows, while that of unsaturated--falls in the erythrocyte membranes of rats maintained on a diet without vitamin E. In this case transmembrane calcium transport catalyzed by Ca2(+)-ATPase (EC 3.6.1.3) is not broken and activity of antioxidant enzyme superoxide dismutase (EC 1.15.1.11) in lysate of erythrocytes falls. The found shifts are corrected with administration of antioxidant preparations.
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PMID:[Indices of structure and function of erythrocyte membranes in rats with vitamin E deficiency and their correction with antioxidant drugs]. 196 70

The purpose of this study was to determine the effect of the dietary antioxidant vitamin E on hepatocarcinogenesis by peroxisome proliferators which, it is hypothesized, induce tumors by increased production of hydrogen peroxide or other oxygen radicals. Rats were fed diets containing the peroxisome proliferator ciprofibrate and one of three concentrations (10, 50, or 500 ppm) of alpha-tocopheryl acetate for 6 months or 21 months. The incidence of hepatic tumors and the number and volume of gamma-glutamyl-transpeptidase-positive, ATPase-negative, glucose-6-phosphatase-negative, and glucose-6-phosphatase-positive foci were quantified. No tumors or altered hepatic foci were seen at 6 months, but at 21 months the incidence of hepatic tumors and the number and volume of altered hepatic foci were increased in rats fed higher levels of vitamin E. Indices of oxidative damage--concentrations of malonaldehyde, conjugated dienes, and lipid-soluble fluorescence products--were not affected or were lower in rats fed higher amounts of vitamin E; the enhancing effect of vitamin E on the development of altered hepatic foci and hepatic tumors, therefore, was not related to the induction of cellular oxidative damage. Hepatic peroxisomal fatty acid beta-oxidation and vitamin C concentrations were not affected by vitamin E, whereas the glutathione concentration was decreased in rats fed higher amounts of vitamin E. This study shows that increasing the vitamin E content of the diet enhances ciprofibrate-induced hepatocarcinogenesis, but the mechanism of this effect is unclear.
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PMID:Effect of dietary vitamin E on the development of altered hepatic foci and hepatic tumors induced by the peroxisome proliferator ciprofibrate. 197 53

Lipid peroxidation induced in isolated rat hepatocytes by FeCl3 (0.1 mM) was associated with an increase in the cytosolic free Ca2+ and in the ionophore-mobilizable Ca2+ content of both mitochondrial and extramitochondrial (endoplasmic reticular) pools. Ca2+ accumulation was completely prevented by the antioxidants promethazine and vitamin E succinate and was not linked to the inhibition of plasma membrane (Ca2+ + Mg2+)-ATPase and Ca2+ transport or to the depletion of intracellular ATP content. Moreover, preincubation of the hepatocytes with the Ca2+ channel blockers verapamil and nifedipine inhibited the elevation of cytosolic Ca2+, as well as the ion accumulation without interfering with the stimulation of lipid peroxidation by iron. These results suggest that peroxidative alterations of the hepatocyte plasma membranes might perturb the functions of verapamil- and nifedipine-sensitive Ca2+ channels resulting in a net influx of Ca2+, which is subsequently sequestrated in the intracellular compartments.
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PMID:Stimulation of lipid peroxidation increases the intracellular calcium content of isolated hepatocytes. 200 14

In vivo administration of CCl4 (2.5 ml/kg, body wt.) to rats results in an early and then progressive inhibition of the high affinity Ca2(+)-ATPase activity in rat liver plasma membranes. The derangement to the Ca2(+)-ATPase seems to be independent on a 'solvent effect' of the agent since the in vitro addition of increasing concentrations of either CCl4 or ethanol to control plasma membranes does not affect the enzymatic activity. By using the technique of vitamin E pretreatment of experimental animals we show that the damage to the Ca2(+)-ATPase seems to follow a two-step kinetics. The early inhibition of the enzyme is not prevented by alpha-tocopherol supplementation and seems then unrelated to lipid peroxidative processes. The same procedure is however able to affort a significant protection against the exacerbation of the damage to the Ca2(+)-ATPase becoming evident late during the course of CCl4 intoxication. The high affinity Ca2(+)-ATPase is affected in vitro by 4-hydroxy-nonenal (HNE), a major end-product of lipid peroxidation interacting with -SH groups. Similar results were obtained after the addition to the incubation medium of sulphydryl reagents. The possible mechanisms involved in Ca2(+)-ATPase inhibition are discussed in relation to the development of CCl4 toxicity and to the role of lipid peroxidative processes.
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PMID:Inhibition of the high affinity Ca2(+)-ATPase activity in rat liver plasma membranes following carbon tetrachloride intoxication. 213 79

Different degree of sensitivity to acute hypoxia in vivo has been shown in guinea-pig pigmented epithelium, retina and visual cortex Na, K-ATPase. The highest degree of the enzyme activity inhibition has been noted in the pigmented epithelium (more than 3 times), lower inhibition-in visual cortex (26%) and the lowest-in the retina (18%). In contrast to Na, K-ATPase, hypoxia effect on Mg-ATPase resulted in both inhibition and activation of the enzyme in all 3 structures. Reoxygenation following acute hypoxia increases Na, K-ATPase activity inhibition in the retina and visual cortex. But under reoxygenation the enzyme activity is recovered in the pigmented epithelium. Preliminary administrations of vitamin E completely prevented Na, K-ATPase activity inhibition in all studied structures.
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PMID:[The Na, K-ATPase activity of the separate structural components of the guinea-pig visual system in hypoxia]. 216 91

The Na+,K(+)-ATPase is a membrane-bound, sulfhydryl-containing protein whose activity is critical to maintenance of cell viability. The susceptibility of the enzyme to radical-induced membrane lipid peroxidation was determined following incorporation of a purified Na+,K(+)-ATPase into soybean phosphatidylcholine liposomes. Treatment of liposomes with Fenton's reagent (Fe2+/H2O2) resulted in malondialdehyde formation and total loss of Na+,K(+)-ATPase activity. At 150 microM Fe2+/75 microM H2O2, vitamin E (5 mol%) totally prevented lipid peroxidation but not the loss of enzyme activity. Lipid peroxidation initiated by 25 microM Fe2+/12.5 microM H2O2 led to a loss of Na+,K(+)-ATPase activity, however, vitamin E (1.2 mol%) prevented both malondialdehyde formation and loss of enzyme activity. In the absence of liposomes, there was complete loss of Na+,K(+)-ATPase activity in the presence of 150 microM Fe2+/75 microM H2O2, but little effect by 25 microM Fe2+/12.5 microM H2O2. The activity of the enzyme was also highly sensitive to radicals generated by the reaction of Fe2+ with cumene hydroperoxide, t-butylhydroperoxide, and linoleic acid hydroperoxide. Lipid peroxidation initiated by 150 microM Fe2+/150 microM Fe3+, an oxidant which may be generated by the Fenton's reaction, inactivated the enzyme. In this system, inhibition of malondialdehyde formation by vitamin E prevented loss of Na+,K(+)-ATPase activity. These data demonstrate the susceptibility of the Na+,K(+)-ATPase to radicals produced during lipid peroxidation and indicate that the ability of vitamin E to prevent loss of enzyme activity is highly dependent upon both the nature and the concentration of the initiating and propagating radical species.
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PMID:Radical-induced inactivation of kidney Na+,K(+)-ATPase: sensitivity to membrane lipid peroxidation and the protective effect of vitamin E. 216 81


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