DrugBank:EXPT00568 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:EXPT00568 (ascorbate)
23,072 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The microsomal fraction of human platelets catalyzed the conversion of arachidonic acid to an unstable platelet-aggregating factor and a hydrolyzed product on the thin-layer chromatography (TLC). This product was isolated on TLC, purified by silica gel column chromatography and identified by combined gas chromatography-mass spectrometry as the hemiacetal derivative of 8-(1-hydroxy-3-oxopropyl)-9, 12L-dihydroxy-5, 10-heptadecatrienoic acid (thromboxane B2). The enzymatic activity was dependent upon methemoglobin and tryptophan as cofactors. Reduced glutathione had no effect either alone or in combination with other cofactors. Methemoglobin could be replaced by hematin or hemin; and tryptophan by 3-indolacetic acid or catecholamines. The apparent requirement for methemoglobin is due to the reductive activity of ferriprotoporphyrin IX. The reaction, however, catalyzed by the ferriprotoporphyrin IX in the thromboxane synthesizing system is different from that described for the decomposition of lipid peroxides. Certain transition metals and hydrogen donors, such as hydroquinone and ascorbate, which have been shown to stimulate the catalytic activity of ferriproroporphyrin IX in the decomposition of 15-hydroperoxy-prostaglandin E1 are inhibitors of thromboxane B2 formation. This enzyme preparation also transformed eicosa-8. 11, 14-trienoic acid to an unknown product on TLC. The enzyme system was rapidly inactivated upon incubation in the reaction mixture.
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PMID:Biosynthesis of thromboxane B2: assay, isolation, and properties of the enzyme system in human platelets. 1 39

The carcinogen 4-nitroquinoline 1-oxide (4-NQO) was found to rapidly deplete non-protein thiols (NPSH) from Ehrlich ascites tumor cells and V79 Chinese hamster fibroblasts. The effects of NPSH on 4-NQO metabolism were studied by measuring 4-hydroxyaminoquinoline 1-oxide formation, CN- -insensitive oxygen consumption, and reduction of ferricytochromes c + c1 in normal cells and in cells pretreated with the thiol reagent N-ethylmaleimide. Removal of thiols before treatment with 4-NQO resulted in increased production of 4-hydroxyaminoquinoline 1-oxide and increased production of nitro radicals. The NPSH thus appeared to play a significant role in 4-NQO detoxification. Glutathione, when present in culture medium during 4-NQO treatment, protected V79 cells from 4-NQO toxicity. Several mechanisms for reaction of 4-NQO with intracellular NPSH were indicated. Both V79 and Ehrlich cells contained appreciable amounts of glutathione S-transferase (EC 2.5.1.18), which catalyzes the nucleophilic substitution of the nitro group of 4-NQO with thiols. Greater thiol loss under oxic than under hypoxic conditions suggested oxidation by superoxide, peroxide, or hydroxyl radical formed in the course of 4-NQO reduction. In addition, reaction of thiols with nitro radicals or with nitrosoquinoline 1-oxide was indicated by the inhibitory effect of glutathione on oxygen consumption in solutions of 4-NQO and sodium ascorbate.
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PMID:Interactions of the carcinogen 4-nitroquinoline 1-oxide with the non-protein thiols of mammalian cells. 11 Apr 43

The composition of rhesus monkey aqueous humor has been studied in large-volume, pooled samples. Replicate determinations of the concentrations of a number of constituents have been carried out for both aqueous humor and serum from large veins by means of automatic analyzing equipment. Since aqueous humor has been obtained by anterior chamber paracentesis, it is a mixture of anterior and posterior chamber aqueous. When compared to serum, the pooled aqueous contains an excess of chloride, bicarbonate, ascorbate, lactate, uric acid, and several neutral amino acids. Rhesus monkey aqueous humor is deficient in calcium, urea nitrogen, phosphates, glucose, protein, creatinine, iron, bilirubin, cholesterol, triglycerides, a number of serum enzymes, acidic and basic amino acids, and several neutral amino acids. Sodium, potassium, magnesium, and two neutral amino acids (cysteine and valine) are of equal concentration in aqueous humor and serum. Glutathione concentration is very low in both aqueous humor and serum. Pooled rhesus monkey aqueous humor and serum are isosmolar, with measured osmolality being about 303 mOsm. Based upon the chemical analysis, a new solution has been formulated to substitute for primate aqueous humor during anterior ocular perfusion. This new solution causes very little change in the physiologic integrity of the outflow pathways during prolonged, repeated perfusion. In this respect, its effects are very similar to those of pooled rhesus monkey aqueous humor during perfusion of rhesus monkey eyes. In contrast, perfusion of rhesus monkey eyes with glutathione-bicarbonate-Ringer's solution has been shown to cause progressive increase of the total facility. To minimize physiologic alterations during operative procedures, a solution similar to this new one could be formulated for irrigation of the inside of the human eye.
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PMID:Rhesus monkey aqueous humor composition and a primate ocular perfusate. 11 68

The reaction of oxyhaemoglobin and acetylphenylhydrazine, which results in haemoglobin denaturation and precipitation, was found to be influenced by H202 and superoxide (O2-.) generated during the reaction. By analysing the different haemoglobin oxidation products, it was found that by influencing the rate at which oxyhaemoglobin was oxidized, H2O2 accelerated the overall haemoglobin breakdown, and O2-. inhibited it. By adding GSH (reduced glutathione) or ascorbate, it was possible to slow down the rates of both oxyhaemoglobin oxidation and O2-. production, and the overall rate of haemoglobin breakdown. These results are compatible with a mechanism involving production of the acetylphenylhydrazyl free radical, and with GSH, ascorbate and O2-. acting as radical scavengers and preventing its further reactions. The reaction produced choleglobin, as well as acetylphenyldiazine and methaemoglobin, which combined to form a haemichrome. The haemichrome was less stable and precipitated first. It was also less stable than the haemichrome formed by direct reaction of acetylphenyldiazine with methaemoglobin, and it is proposed that this is because the methaemoglobin produced from oxyhaemoglobin and acetylphenylhydrazine was modified by the free radicals and H2O2 produced in the reaction.
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PMID:Mechanism of oxyhaemoglobin breakdown on reaction with acetylphenylhydrazine. 21 Jul 65

Mouse neuroblastoma (NB) cells in culture were more sensitive to sodium L-ascorbate than were rat glioma cells by the criterion of growth inhibition (due to cell death and reduction in cell division). Sodium L-ascorbate at nonlethal concentrations potentiated the effect of 5-fluorouracil (FUra), x-irradiation, bleomycin, RO20-1724, prostaglandin E1, and sodium butyrate on NB cells but did not produce such an effect on glioma cells. Sodium L-ascorbate did not enhance the effect of vincristine, 6-thioguanine, or 1-(2-chloroethyl)-3-cyclohexyl-1-nitrosourea (CCNU) except at higher drug doses and it reduced the cytotoxic effect of methotrexate and 5-(3,3-dimethyl-1-triazeno)-imidazole-4-carboxamide (DTIC) on NB cells. Sodium D-ascorbate produced effects similar to those produced by sodium L-ascorbate on NB cells. L-Ascorbic acid-2-sulfate (barium salt) affected neither the growth rate nor the effect of 5-FUra on NB cells. Glutathione, a reducing agent, was more toxic to NB cells in comparison to D- OR L-ascorbate; however, at a similar concentration it failed to potentiate the effect of 5-FUra on NB cells.
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PMID:Sodium ascorbate potentiates the growth inhibitory effect of certain agents on neuroblastoma cells in culture. 28 5

It seems that superoxide dismutase plays the key role in protecting aerobes against O2 toxicity, but there is a whole range of ancillary mechanisms: enzymes to remove H2O2 (catalase, peroxidases) and hence to control formation of .OH from O2, which requires H2O2; antioxidants (ascorbate, GSH, alpha-tocopherol, carotenoids), which also react with singlet oxygen and/or .OH and often inhibit lipid peroxidation and last, but not least in animals, glutathione peroxidase, which controls the rate of lipid peroxidation. These mechanisms cope well at normal O2 concentrations but are insufficient at higher levels.
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PMID:Biochemical mechanisms accounting for the toxic action of oxygen on living organisms: the key role of superoxide dismutase. 35 40

Ascorbate was found to inhibit oxidation of oxyhaemoglobin and Heinz body formation in glucose-6-phosphate dehydrogenase deficient red cells incubated with acetylphenylhydrazine. It is proposed that ascorbate can substitute for the glutathione which is depleted and act as a scavenger for drug free radicals generated during the reaction. Ascorbate was protective at concentrations only a little higher than that in normal blood, and the possibility that administration of ascorbate could protect GSH deficient cells against the action of oxidative drugs such as APH is considered. A simple method of quantitatively assessing Heinz body formation by measuring the turbidity of the lysed cells is described.
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PMID:Protection by ascorbate against acetylphenylhydrazine-induced Heinz body formation in glucose-6-phosphate dehydrogenase deficient erythrocytes. 42 33

Two groups of weanling male Hartley guinea pigs maintained on vitamin E deficient diet were supplemented with 0.4 I.U./100 g body weight/day of vitamin E and either 2 (Group A) or 10 (Group B) mg/100 g body weight/day of vitamin C for 5 weeks. As compared to Group A, the degree of erythrocyte hemolysis and liver TBAR level of Group B were significantly increased while plasma vitamin E and erythrocyte GSH levels were significantly decreased. In another experiment, two groups of guinea pigs were given 0.8 I.U./100 g body weight/day of vitamin E and 2 (Group C) or 30 mg/100 g body weight/day (Group D) of vitamin C. Levels of plasma vitamin E and erythrocyte GSH of Group D were significantly lower than those of Group C: however, erythrocyte hemolysis and liver TBAR were not affected by the level of vitamin C supplementation. The results suggest that the high levels of vitamin C supplementation lowered tissue antioxidant potential of animal when vitamin E was marginally adequate, and the hemolytic and peroxidizing effect of high level of vitamin C may be counteracted by increasing the level of vitamin E.
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PMID:Effects of high level of vitamin C on tissue antioxidant status of guinea pigs. 44 55

Inducers and inhibitors of the microsomal mixed function oxidase system have no consistent effect upon the nephrotoxicity of p-aminophenol, or on binding of the compound in vivo to cell protein. p-[ring-3H]Aminophenol was bound in vitro to kidney microsomal protein and to a lesser extent to liver. The binding was enhanced by preincubation of the p-aminophenol in air and inhibited by ascorbate, GSH, N2 and NADPH. These findings indicate that in contrast to paracetamol hepatoxicity which is dependent upon the mixed function oxidase system, that nephrotoxicity of p-aminophenol is dependent upon oxidation to a toxic metabolite by some other pathway. A similar metabolite may be responsible for the nephrotoxic action of phenacetin.
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PMID:The nephrotoxicity of p-aminophenol. II. The effect of metabolic inhibitors and inducers. 49 55

Uptake of AsA and DAsA by human cells, i.e., erythrocytes and HeLa cells, was examined in vitro. AsA was taken up very slowly, but DAsA was taken up very rapidly by erythrocytes to establish equilibrium after 1 minute. Uptake of the vitamins by HeLa cells was similar to that by erythrocytes, except there was an uptake of DAsA that reached saturation after 5 minutes. The DAsA taken up was reduced in part to AsA and the concentrations of DAsA inside and outside the cells became almost equal. GSH was responsible for this reduction. Although DAsA was evidently a more permeant form than AsA in the case of human cells, the relevance of this to the uptake of vitamin C by the tissues in vivo remains uncertain.
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PMID:Uptake of L-ascorbic acid and L-dehydroascorbic acid by human erythrocytes and HeLa cells. 52 50

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