DrugBank:EXPT00568 - FACTA Search

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Query: DrugBank:EXPT00568 (ascorbate)
23,072 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peroxidation in isolated, functionally intact rat heart mitochondria was induced by iron/ascorbate or ADP-iron/NAD(P)H. Compared to liver mitochondria, MDA formation was very low and lipohydroperoxides not detected. The NADPH-mediated peroxidation which generally resulted in somewhat higher MDA levels was accompanied by an increasing inhibition of ADP-stimulated respiration. The active respiration was sensitively inhibited at very early stages of MDA formation, whereas in the same period the CAT-insensitive respiration exhibited almost no response at all. It was demonstrated that the decrease in active respiration correlated with the time for half-maximum MDA formation. No considerable degradation of major mitochondrial phospholipids was observed during two hours of incubation. It was not until after complete inhibition of respiration and onset of enhanced MDA formation that cardiolipin, phosphatidylethanolamine and, later, phosphatidylcholine were diminished.
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PMID:Studies of lipid peroxidation in isolated rat heart mitochondria. 273 Jun 31

Oxidation of NADH has been observed in an in vitro system requiring NADH, vanadate, ascorbate, and phosphate. Similar results were observed with NADPH. Ascorbate provides the reducing equivalents necessary to reduce vanadate to vanadyl. Vanadyl autoxidizes producing superoxide which initiates a free radical chain reaction resulting in oxidation of NADH. Oxidation is inhibited by superoxide dismutase but not by catalase or ethanol. Ascorbate functions to initiate the free radical chain reaction but is not required in stoichiometric concentrations. At higher concentrations, ascorbate inhibits NADH oxidation. Inorganic phosphate was required for NADH oxidation. Dialysis of phosphate buffers against solutions containing apoferritin or conalbumin or addition of transition metal cations or chelators to the reaction medium did not alter dependence on phosphate. Phosphate and vanadate were interchangeable in their effects on kinetic parameters of NADH oxidation except that vanadate was 100 times more potent than phosphate. Vanadate participates directly in the initiating and propagating redox reactions of NADH oxidation. Phosphate may be important in lowering the energy of activation for the necessary transfer of hydronium ion and water in the transition state between vanadate anion and vanadyl cation.
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PMID:Vanadate-mediated oxidation of NADH: description of an in vitro system requiring ascorbate and phosphate. 273 68

The membrane bound enzyme oxidizing protoporphyrinogen to protoporphyrin, a step in heme and chlorophyll synthesis, was purified to a single prominent polypeptide band on SDS/PAGE from barley mitochondrial fractions. It contained a variety of lipids including 0.66 mg of phosphatidyl ethanolamine and 0.46 mg of free fatty acid per mg of protein. Iron, but no flavins or cytochromes, was detected. In the presence of glutathione, enzymatic oxidation was inhibited by the iron chelator o-phenanthroline but was stimulated by iron EDTA. The purified enzyme was inhibited by reductants such as glutathione, ascorbate, NADH and NADPH. These findings are compatible with some direct or indirect involvement of lipids and iron in this oxidation in plants.
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PMID:Characteristics of purified protoporphyrinogen oxidase from barley. 273 23

Although a number of reducing systems can release iron from ferritin, there is debate as to whether the process additionally requires a chelator. We have studied ferritin iron release by microsomes, paraquat and NADPH, by dialuric acid and by hypoxanthine and xanthine oxidase, using ferrozine to complex the released iron. In each case, Fe2+ (ferrozine) formation was detectable when the ferrozine was added at the beginning of the 10 min reaction period, but not at the end. However, with catalase present, up to 0.7 times as much Fe2+ could be measured with ferrozine added at the end. Further Fe2+ could be recovered by adding ascorbate with the ferrozine. These results indicate that an iron chelator is not required for reductive iron release from ferritin. However, the released iron will not be detectable as Fe2+ unless it forms a complex that is resistant to oxidation by H2O2 or other oxidants.
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PMID:An iron chelator is not required for reductive iron release from ferritin by radical generating systems. 280 53

Functions of rat liver cell genome were distinctly altered after a single administration of tetrachloromethane into animals. Maximal alterations in the structure-functional properties of chromatin were detected within 2 hrs after intoxication. The phenomenon was accompanied by the following shifts in the chromatin active fractions: activation of DNA- and RNA polymerases, decrease in content of this fraction, increase in the ratio protein/DNA due to elevation in the protein component with molecular mass 65 kDa detected in the nonhistone fraction of electrophoretogram. Alterations in the repressed chromatin fraction were less distinct. Many parameters of the chromatin fractions were normalized within 24 hrs after the intoxication. Peroxidation of lipids contained in chromatin occurred via NADPH-and ascorbate-dependent reactions, the rate of which was distinctly higher in the repressed chromatin fraction of liver cells from the animals intoxicated within 24 hrs. These alterations in the structure-functional properties of liver chromatin fractions, developed after a single administration of tetrachloromethane into animals, were related neither to the rate of lipid peroxidation in chromatin, stimulated by tetrachloromethane, nor to alterations in Ca2+ and Mg2+ content in nuclear fraction. cAMP-dependent phosphorylation of chromatin proteins appears to be rather responsible for chemical impairments of hepatocyte membranes stimulated by tetrachloromethane.
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PMID:[Functional activity of fractionated chromatin from rat liver upon a single administration of carbon tetrachloride]. 281 69

Studies on rats treated for 8 months with ethanol (10% solution in drinking water) and simultaneously exposed to xylene vapour (12,000 mg/m3, 5 hr daily) for the last 9 days revealed that the chemicals exert additive stimulatory effect on hepatic microsomal monooxygenase: the activity of aniline p-hydroxylase increased by 380%, microsomal ethanol oxidizing system by 92%, NADPH-cyt. c reductase by 30% and the level of cytochrome P-450 by 70%. The changes were accompanied by a marked proliferation of smooth endoplasmic reticulum (a subcellular site of cytochrome P-450 monooxygenases in the hepatocytes) and an increased NADPH-Fe2+- and ascorbate-Fe2+-driven lipid peroxidation in microsomal membranes--a potential toxic mechanism. Interaction of ethanol and xylene with cytochrome P-450 monooxygenases may enhance metabolic capacity of the liver and in consequence modify biological/toxic effects of occupational exposure to solvents in the case of alcohol abuse.
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PMID:The effect of combined exposures to ethanol and xylene on rat hepatic microsomal monooxygenase activities. 281 36

Incubation of stimulated neutrophils with sulfhydryl (RSH) compounds or ascorbic acid (ascorbate) results in rapid superoxide (O2-)-dependent oxidation of these reducing agents. Oxidation of RSH compounds to disulfides (RSSR) is faster than the rate of O2- production by the neutrophil NADPH-oxidase, whereas about one ascorbate is oxidized per O2-. Ascorbate is oxidized to dehydroascorbate, which is also oxidized but at a slower rate. Oxidation is accompanied by a large increase in oxygen (O2) uptake that is blocked by superoxide dismutase. Lactoferrin does not inhibit, indicating that ferric (Fe3+) ions are not required, and Fe3+-lactoferrin does not catalyze RSH or ascorbate oxidation. Two mechanisms contribute to oxidation: 1) O2- oxidizes ascorbate or reduced glutathione and is reduced to hydrogen peroxide (H2O2), which also oxidizes the reductants. O2- reacts directly with ascorbate, but reduced glutathione oxidation is mediated by the reaction of O2- with manganese (Mn2+). The H2O2-dependent portion of oxidation is mediated by myeloperoxidase-catalyzed oxidation of chloride to hypochlorous acid (HOCl) and oxidation of the reductants by HOCl. 2) O2- initiates Mn2+-dependent auto-oxidation reactions in which RSH compounds are oxidized and O2 is reduced. Part of this oxidation is due to the RSH-oxidase activity of myeloperoxidase. This activity is blocked by superoxide dismutase but does not require O2- production by the NADPH-oxidase, indicating that myeloperoxidase produces O2- when incubated with RSH compounds. It is proposed that an important role for O2- in the cytotoxic activities of phagocytic leukocytes is to participate in oxidation of reducing agents in phagolysosomes and the extracellular medium. Elimination of these protective agents allows H2O2 and products of peroxidase/H2O2/halide systems to exert cytotoxic effects.
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PMID:Superoxide-dependent oxidation of extracellular reducing agents by isolated neutrophils. 282 62

The mechanism of lipid peroxidation in the central nervous system has been studied using oxygen-flushed rat brain homogenates at pH 7.4. Brain lipid peroxidation was monitored by chemiluminescence and by determination of thiobarbituric acid-reactive substances. Less involvement of O2-., H2O2 and probably .OH in the initiation of lipid peroxidation was indicated. Deferroxamine was an extremely potent inhibitor of lipid peroxidation, suggesting that lipid peroxidation was catalyzed by endogenous iron. Brain tissues were shown to contain at least two iron-reducing systems for promotion of lipid peroxidation. One was ascorbate-dependent and the other NADPH-dependent. The former was much more potent than the latter with respect to iron-reducing activity.
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PMID:Importance of two iron-reducing systems in lipid peroxidation of rat brain: implications for oxygen toxicity in the central nervous system. 283 81

The 15,000xg supernatant of sonicated rat PMN contains 5-lipoxygenase that converts arachidonic acid to 5-hydroperoxyeicosatetraenoic acid (5-HPETE) and leukotriene A4 and an HPETE peroxidase that catalyzes reduction of the 5-HPETE. The specificity of this HPETE peroxidase for peroxides, reducing agents, and inhibitors has been characterized to distinguish this enzyme from other peroxidase activities. In addition to 5-HPETE, the HPETE peroxidase will catalyze reduction of 15-hydroperoxyeicosatetraenoic acid, 13-hydroperoxyoctadecadienoic acid, and 15-hydroperoxy-8,11,13-eicosatrienoic acid, but not cumene or t-butylhydroperoxides. The HPETE peroxidase accepted 5 of 11 thiols tested as reducing agents. However, glutathione is greater than 15 times more effective than any other thiol tested. Other reducing agents, ascorbate, NADH, NADPH, phenol, p-cresol, and homovanillic acid, were not accepted by HPETE peroxidase. This enzyme is not inhibited by 10 mM KCN, 2 mM aspirin, 2 mM salicylic acid, or 0.5 mM indomethacin. When 5-[14C]HPETE is generated from [14C]arachidonic acid in the presence of unlabeled 5-HPETE and the HPETE peroxidase, the 5-[14C]HETE produced is of much lower specific activity than the [14C]arachidonic acid. This indicates that the 5-[14C]HPETE leaves the active site of 5-lipoxygenase and mixes with the unlabeled 5-HPETE in solution prior to reduction and is a kinetic demonstration that 5-lipoxygenase has no peroxidase activity. Specificity for peroxides, reducing agents, and inhibitors differentiates HPETE peroxidase from glutathione peroxidase, phospholipid-hydroperoxide glutathione peroxidase, a 12-HPETE peroxidase, and heme peroxidases. The HPETE peroxidase could be a glutathione S-transferase selective for fatty acid hydroperoxides.
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PMID:Specificity of an HPETE peroxidase from rat PMN. 285 18

The role of metals in the reactivity of HO2/O2- with compounds of biological interest is discussed. A scheme that illustrates the various reactions that a transition metal complex can undergo when reacting with HO2/O2- is presented in terms of ligand and pH effects. The decomposition of hydrogen peroxide catalysed by ferrous ion is reviewed in terms of new rate data for the reactions of ferric ion with perhydroxyl (HO2) and superoxide (O2-) radicals. The new results support a mechanism proposed by Barb and his coworkers (W.G. Barb, J.H. Baxendale, P. George & K.R. Hargrave, Trans. Faraday Soc. 47, 462-500 (1951] and negates the occurrence of the Haber-Weiss reaction in this system. In the presence of MnII complexes, O2- reacts to form MnO2+ transients and MnIII complexes. Their reactivities with ascorbate, Trolox (6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid) and NADH-NADPH is discussed.
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PMID:Fast kinetic studies of dioxygen-derived species and their metal complexes. 286 12

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