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)

The possibility that methemoglobin (metHb) may function as a biological Fenton reagent to produce hydroxyl radical from hydrogen peroxide is investigated by electron paramagnetic resonance (EPR) spin-trapping techniques. The spin trap 5,5-dimethyl-1-pyrroline-N-oxide (DMPO) gives a nine-line EPR spectrum and no hydroxyl radical or superoxide spin adduct signals for the metHb/H2O2 system. From the known hyperfine splitting constants, the spectrum is assigned to 5,5-dimethylpyrrolidone-2(2)-oxyl-(1) (DMPOX), an oxidized derivative of DMPO. The likely involvement of the peroxidase activity of metHb in this reaction is suggested by the oxidation of DMPO to DMPOX by horseradish peroxidase as well. Furthermore, peroxidase inhibitors prevent the formation of DMPOX. Spectrophotometric assays confirm the peroxidase activity of metHb toward typical phenolic and nonphenolic substrates under the conditions used for the EPR experiments. The visible absorption spectra indicate the formation of a ferrylHb intermediate and its reduction by DMPO. Glutathione and ascorbic acid compete with DMPO as electron donors in the reaction to form thiyl and ascorbate radicals. Neither hydroxyl radical nor any other signal is observed when N-tert-butyl-alpha-phenylnitrone (PBN) is used as the spin trap in the metHb/H2O2 system. It is concluded that methemoglobin-bound iron may not catalyze the Fenton reaction forming hydroxyl radical, but can oxidize a variety of substrates, including DMPO, in a peroxidase-type reaction.
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PMID:Oxidation of spin trap 5,5-dimethyl-1-pyrroline-1-oxide in an electron paramagnetic resonance study of the reaction of methemoglobin with hydrogen peroxide. 800 34

Hydrogen peroxide oxidation of human erythrocytes induces a transfer of phospholipid from the membrane into the cytosol [Brunauer, L.S., Moxness, M.S., & Huestis, W.H. (1994) Biochemistry 33, 4527-4532]. The current study examines the mechanism of lipid reorganization in oxidized cells. Exogenous phosphatidylserine was introduced into the inner monolayer of erythrocytes, and its distribution was monitored by microscopy and radioisotopic labeling. Pretreatment of cells with carbon monoxide prevented both hemoglobin oxidation and the transfer of phosphatidyserine into the cytosolic compartment. The roles of the various hemoglobin oxidation products in lipid extraction were investigated using selective oxidants. Nitrite treatment of intact cells produced almost complete conversion to methemoglobin, but no detectable lipid extraction. Treatments designed to produce the green hemoglobin derivatives, sulfhemoglobin and choleglobin, resulted in cytosolic extraction of phosphatidylserine. Ion exchange and size exclusion chromatography of oxidized cytosolic components revealed a lipid-hemoglobin complex. The interaction between lipid and hemoglobin oxidation products was verified in a model system. Purified hemoglobin, enriched in sulfhemoglobin and choleglobin by treatment with H2O2, H2S, or ascorbate, extracted phospholipid from small unilamellar phospholipid vesicles. Electron paramagnetic resonance studies demonstrated that hemoglobin oxidation products also adsorb fatty acids from solution. This newly described activity of hemoglobin may play a role in the clearance of oxidatively damaged and senescent cells from circulation.
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PMID:Hemoglobin oxidation products extract phospholipids from the membrane of human erythrocytes. 867 46

An attempt was made to determine whether sulfur dioxide (SO2,) inhalation at 10 ppm, 1 hr daily, for 30 days induces oxidant stress and whether vitamin E (40 mg/kg) together with vitamin C (200 mg/kg), administered intraperitoneally once in every 3 days, can reduce the damage in red blood cell membranes of guinea pigs. Malonyldialdehyde (MDA) levels, osmotic fragility ratios, and methemoglobin and sulfhemoglobin values were significantly higher in the SO2-treated group compared with the control group (P < 0.05), and marked decreases in MDA levels and osmotic fragility ratios were determined in the group treated with SO2 + antioxidant vitamins (P < 0.05).
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PMID:The effects of sulfur dioxide inhalation and antioxidant vitamins on red blood cell lipoperoxidation. 875 35

In this work we investigated the stability in aerobic plasma of two naturally occurring S-nitrosothiols, the S-nitroso adduct of serum albumin (S-NO-albumin) and the S-nitroso adduct of glutathione (S-NO-glutathione). In contrast to their behavior in physiological buffers, in which they are stable, in plasma these S-nitrosothiols showed a slow but continuous release of .NO. In the presence of red blood cells, the .NO was quantitatively oxidized to NO3- with stoichiometric formation of methemoglobin. In the absence of red blood cells, the principal oxidation product was NO2- with small amounts of NO3- (about 1/5 of the amount of NO2-). The release of .NO was also proven by spin trapping experiments with 2-(4-Carboxyphenyl)4,4,5,5-tetramethyl-imidazoline-1-oxyl-3-oxide which, when added to plasma in the presence of S-NO-glutathione, was transformed into 2-(4-carboxyphenyl)-4,4,5,5-tetramethyl-imidazoline-1-oxyl. Both dialysable and nondialysable compounds are involved in the release of .NO from S-nitrosothiols. Ascorbate and the thiol group of serum albumin are the plasma components mainly involved in the release of .NO, while endogenous L-cysteine and glutathione play a minor role due to their relative low concentrations. However, in contrast to the thiol-dependent release that is known to induce the formation of disulfides, the ascorbate-dependent release of .NO from S-NO-glutathione resulted in the formation of free sulfhydryls. Our results suggest that in plasma the .NO release from S-NO-albumin and S-NO-glutathione may be regulated by heterolytic NO+ transfer and reductive activation to .NO, rather than by homolytic decomposition of labile S-nitrosothiols.
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PMID:Role of ascorbate and protein thiols in the release of nitric oxide from S-nitroso-albumin and S-nitroso-glutathione in human plasma. 901 26

Diaspirin-cross-linked hemoglobin (DCLHb) is a chemically modified hemoglobin (Hb) (i.e., alpha-subunits are cross-linked by a covalent bond) currently being tested as a potential oxygen-carrying blood substitute. It was examined for possible vasoactive properties, using the rat isolated aorta strip denuded of endothelium. In this experimental model, DCLHb (1.6-155 microM) was found to be inactive as a vasoconstrictor when added to the Krebs medium but to elicit contractile responses once the Krebs medium containing DCLHb was replaced by mineral oil, a procedure that favors the sequestration of a fixed amount of DCLHb within a substantially reduced volume of extracellular fluid. The contractile activity of DCLHb in our experimental model (i.e., prior exposure of tissues to drugs in the Krebs medium followed by replacement of the Krebs medium by mineral oil) was mimicked by methemoglobin and metmyoglobin, but not by cytochrome c, albumin, hemin, hematin, Fe2+, and a variety of hemorphins. It was abolished by indomethacin, SQ-29548 (prostaglandin H2-thromboxane A2 receptor antagonist), thiourea, or N-2-mercaptopropionylglycine (MCPG), reduced partially by verapamil, but not affected by dazmegrel, MK-886 (leukotriene biosynthesis inhibitor), dimethylsulfoxide, vitamin C or E, deferoxamine, NG-nitro-L-arginine, naloxone, and a variety of other drug receptor antagonists (e.g., prazosin) and protease inhibitors (e.g., pepstatin). Rat aorta strips denuded of endothelium exhibited contractile responses to arachidonic acid added in the Krebs medium (i.e., with no mineral oil added afterwards). Such contractile activity was reduced by SQ-29548, thiourea, or MCPG. Addition of U-46619 (prostaglandin H2-thromboxane A2 mimetic) to the Krebs medium also elicited contractile responses in rat aorta strips denuded of endothelium. Such contractile activity was reduced by SQ-29548, thiourea, or verapamil but not by MCPG. Within the limitations of our experimental approach, these results suggest that (1) the contractile activity of DCLHb in rat aorta strips denuded of endothelium following replacement of the Krebs medium by mineral oil involves the participation of a secondary mediator, which could be a vasoconstrictor metabolite of arachidonic acid; (2) the participation of reactive oxygen species, potential degradation products of DCLHb (e.g., heme, Fe2+, hemorphins), or other mediators in the contractile activity of DCLHb is unlikely; and (3) Ca2+ entry into target cells might be involved in the process by which DCLHb elicits its contractile activity in our experimental model.
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PMID:Mechanism of the contractile effect of diaspirin-cross-linked hemoglobin in rat isolated aorta strip denuded of endothelium as revealed using an oil-immersion procedure. 902 38

The aim of this study was to investigate the effects of 50 Hz magnetic fields (0.2-0.5 mT) on rabbit red blood cells (RBCs) that were exposed simultaneously to the action of an oxygen radical-generating system, Fe(II)/ascorbate. Previous data obtained in our laboratory showed at the exposure of rabbit erythrocytes or reticulocytes to Fe(II)/ascorbate hexokinase inactivation, whereas the other glycolytic enzymes do not show any decay. We also observed depletion of reduced glutathione (GSH) content with a concomitant intracellular and extracellular increase in oxidized glutathione (GSSG) and a decrease in energy charge. In this work we investigated whether 50 Hz magnetic fields could influence the intracellular impairments that occur when erythrocytes or reticulocytes are exposed to this oxidant system, namely, inactivation of hexokinase activity, GSH depletion, a change in energy charge, and hemoglobin oxidation. The results obtained indicate the a 0.5 mT magnetic field had no effect on intact RBCs, whereas it increased the damage with Fe(II)/ascorbate to a 0.5 mT magnetic field induced a significant further decay in hexokinase activity (about 20%) as well as a twofold increase in methemoglobin production compared with RBCs that were exposed to the oxidant system alone. Although further studies will be needed to determine the physiological implications of these data, the results reported in this study demonstrate that the effects of the magnetic fields investigated are able to potentiate the cellular damage induced in vitro by oxidizing agents.
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PMID:In vitro effects of 50 Hz magnetic fields on oxidatively damaged rabbit red blood cells. 908 63

Blast overpressure (BOP) is a phenomenon that describes the instantaneous rise in atmospheric pressure above ambient, resulting from the firing of large caliber weapons or from military or civilian explosions. Exposure to BOP results in injury to the gas-filled organs, such as the lungs, which exhibit a contusion-type injury. We examined the effects of BOP in rats at 5 and 60 min after exposure to a low-level BOP (62 +/- 3 kPa). The exposure was found to cause oxidative stress in the lung that was characterized by 1) a 3.5-fold decrease in total antioxidant reserves, 2) a depletion of the major water-soluble antioxidants ascorbate and glutathione (GSH) by 50 and 75%, respectively, 3) a depletion of lipid-soluble antioxidant vitamin E by 30%, 4) a 2.5-fold increase of fluorescent end products of lipid peroxidation, and 5) an increased methemoglobin (metHb) content at 60 min after exposure. To elucidate the role of released hemoglobin (Hb) in blast-induced oxidative stress, we studied the interactions of oxyhemoglobin (oxyHb), metHb, and the oxoferryl from of Hb free radical species with two physiologically important reductants, ascorbate and GSH. We found that both ascorbate and GSH were able to convert oxyHb to metHb in a reaction that yielded the one-electron oxidation intermediates semidehydroascorbyl radical and glutathionyl radical, respectively. This reaction did not occur under anaerobic conditions, suggesting that oxyHb-bound O2 acted as the electron acceptor. OxyHb induced peroxidation of cis-parinaric acid in the presence but not absence of ascorbate or GSH. Thus the prooxidant action of water-soluble antioxidants via redox cycling of oxyHb and metHb may promote oxidative stress rather than prevent it.
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PMID:Air blast-induced pulmonary oxidative stress: interplay among hemoglobin, antioxidants, and lipid peroxidation. 912 84

Ascorbate and complexes of Cu(II) and Fe(III) are capable of generating significant levels of oxygen free radicals. Exposure of erythrocytes to such oxidative stress leads to increased levels of methemoglobin and extensive changes in cell morphology. Cu(II) per mole is much more effective than Fe(III). However, isolated hemoglobin is oxidized more rapidly and completely by Fe(III)- than by Cu(II)-complexes. Both Fe(III) and Cu(II) are capable of inhibiting a number of the key enzymes of erythrocyte metabolism. The mechanism for the enhanced activity of Cu(II) has not been previously established. Using intact erythrocytes and hemolysates we demonstrate that Cu(II)-, but not Fe(III)-complexes in the presence of ascorbate block NADH-methemoglobin reductase. Complexes of Cu(II) alone are not inhibitory. The relative inability of Fe(III)-complexes and ascorbate to cause methemoglobin accumulation is not owing to Fe(III) association with the membrane, or its failure to enter the erythrocytes. The toxicity of Cu(II) and ascorbate appears to be a result of site-specific oxidative damage of erythrocyte NADH-methemoglobin reductase and the enzyme's subsequent inability to reduce the oxidized hemoglobin.
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PMID:Copper-specific damage in human erythrocytes exposed to oxidative stress. 916 68

Duodenal iron absorption from food is selectively blocked to prevent iron intoxication. The prime example of pathologic increase in intestinal iron absorption is seen in patients with hemochromatosis. They suffer iron damage to the heart, liver, and other tissues resulting in premature death if the iron is not removed by vigorous phlebotomy. Examples of overcoming the intestinal barrier to iron are alcohol consumption, vitamin preparations with vitamin C, and iron consumed by individuals without anemia. Endogenous generation of excess iron by hemolysis, owing to abnormal hemoglobin or many transfusions, are not controlled by the intestinal barrier.
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PMID:Understanding iron absorption and metabolism, aided by studies of hemochromatosis. 951 82

We describe the case of a 33-year-old man who injected 4 ml of India ink into one of the median cubital veins with suicidal intent. He was hospitalized in good general condition 10 h after the injection. Abnormal laboratory test results were a leukocytosis, an oximetrically determined methemoglobin level of 36.9% (normal range: 1.5%) and a free hemoglobin level of 74 mumol/L (normal range: < 25 mumol/L). Toxicological examination showed the presence of nitrobenzene in blood and urine. Intravenous administration of vitamin C and tolonium chloride plus forced diuresis led to an improvement in cyanosis and a fall in the methemoglobin concentration. Repeated increase in the concentration of aminobenzene were successfully treated by hemodialysis with a high-flux dialyzer.
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PMID:Intravenous injection of India ink with suicidal intent. 954 58

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