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Free Radical Research Communications Volume 3, 1987 - Issue 1-5
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Original Article

Desferrioxamine as an Electron Donor. Inhibition of Membranal Lipid Peroxidation Initiated by H202 –Activated Metmyoglobin and Other Peroxidizing Systems

Joseph Kanner Dept. of Food Science, Agricultural Research Organization, The Volcani, Center, P.O. Box 6. Bet Dagan, Israel
&
Stella Harel Dept. of Food Science, Agricultural Research Organization, The Volcani, Center, P.O. Box 6. Bet Dagan, Israel
Pages 309-317 | Received 21 Jul 1986, Published online: 07 Jul 2009

References

  • Kerberle H. The biochemistry of desferoxamine and its relation to iron metabolism. Ann. N.Y. Acad. Sci. 1964; 199: 758–768
  • Modell B., Letsky E.A., Flynn D.M., Peto R., Weatherall D.J. Survival and desferrioxamine in thalassaemia major. Br. Med. J. 1982; 284: 1081–1087
  • Nayini N.R., White B.C., Aust S.D., Huang R.R., Indrieri R.J., Evans A.T., Bialek H., Jacobs W.A., Kamara J. Post resuscitation iron derealization and malondialdehyde production in the brain following prolonged cardiac arrest. J. Free Rad. Biol. Med. 1985; 1: 111–116
  • Kohen R., Chevion M. Paraquat toxicity is enhanced by iron and reduced by desferrioxamine in laboratory mice. Biochem. Pharmacol. 1985; 34: 184–1843
  • Spiro T.G., Saltman R. Iron in Biochemistry and Medicine, A. Jacobs, M. Worwood. Academic Press, New York 1974; 1–28
  • Bottari E., Anderegg G. Komplexone XLII Die Untersuchung der 1:1 komplexe von einigen drei und vierwertigen metall-ionen mit polyaminocarboxylaten mittels redoxmessungen. Helv. Chim. Acta 1967; 50: 2349–2356
  • Schwarzenbach G., Heller KomplexoneJ. XVII Die eisen (II) und eisen (Ill)-komplexe des ethylenediamintetraessigsaure und ihr redoxgleichgewicht. Helv. Chim. Acta 1951; 34: 576–591
  • Richter N.W., Waddell W.H. Nonclassical Fenton systems: chain decomposition of hydrogen peroxide, catalyzed by reduced 5-methylphenazinium and metal ions. Oxy Radicals and their Scavenger Systems, Vol. I. Molecular Aspects, G. Cohen, R. Greenwald. Elsevier, New York 1983; 89–94
  • Koppenol W.H. Free energies of some interconversion reactions. Photochem. Photobiol. 1978; 28: 431–432
  • Gutteridge J.M.C., Richmond R., Halliwell B. Inhibition of the iron-catalyzed formation of hydroxyl radicals from superoxide and of lipid peroxidation by desferrioxamine. Biochem. J. 1979; 184: 469–472
  • Halliwell B., Gutteridge J.M.C. Formation of thiobarbituric-acid-reactive substances from deoxyribose in the presence of iron salts. FEBS Lett. 1981; 128: 347–352
  • Buettner G.R., Doherty T.P. The apparent role of charge in the reaction of superoxide with Fe(III) chelates. Oxy Radicals and their Scavenger System. Vol. I Molecular Aspects, G. Cohen, R.A. Greenwald. Elsevier, New York 1983; 101–104
  • Heikkilla R.E. The effect of various iron-chelating agents on the Haber-Weiss cycle. Oxy Radicals and their Scavenger System. Vol. I. Molecular Aspects, G. Cohen, A. Greenwald. Elsevier, New York 1983; 282–287
  • Graf E., Mahoney J.R., Bryant R.G., Eaton J.W. Iron-catalyzed hydroxyl radical formation: stringent requirement for free iron coordination site. /. Biol. Chem. 1980; 259: 3620–3624
  • Hoe S., Rowley D.A.R., Halliwell B. Reactions of ferrioxamine and desferrioxamine with the hydroxyl radical. Chem. Biol. Interactions 1982; 41: 75–81
  • Halliwell B. Use of desferrioxamine as a “probe” for iron-dependent formation of hydroxyl radicals. Biochem. Pharmacol 1985; 34: 229–233
  • Kanner J., Harel S. Initiation of membranal lipid peroxidation by activated metmyoglobin and methemoglobin. Arch. Biochem. Biophys. 1985; 237: 314–321
  • Bidlack W.R., Orita R.T., Hochstein R. The role of NADPH cytochrome b5 reductase in microsomal lipid peroxidation. Biochem. Biophys. Res. Commun. 1973; 53: 459–465
  • Markwell M.K., Haas S.S., Bieber L.L., Tolbert N.E. A modification of the Lowry procedure to simplify protein determination in membrane and lipoprotein samples. Anal. Biochem. 1978; 87: 206–210
  • Kanner J., Kinsella J.E. Lipid deterioration: β-carotene destruction and oxygen evolution in a system containing lactoperoxidase, hydrogen peroxide and halides. Lipid 1983; 18: 198–203
  • Pick E., Keisari Y. A simple colorimetric method for the measurement of hydrogen peroxide produced by cells in culture. J. Immunol. Methods 1980; 38: 161–170
  • Kanner J., Harel S., Shagalovich J., Berman S. Antioxidative effect of nitrite in cured meat products. Nitric-oxide-iron complexes of low molecular weight. J. Agric. Food Chem. 1984; 32: 512–514
  • George P., Irvine D.H. The reaction between metmyoglobin and hydrogen peroxide. Biochem. J. 1952; 52: 511–517
  • Chance B., Powers L., Ching Y., Poulos T., Schonbaum G.R., Yamazaki I., Paul K.G. X-Ray absorption studies of intermediates in peroxidase activity. Arch. Biochem. Biophys. 1984; 235: 596–611
  • Gutteridge J.M.C. 1985, Personal communication
  • Gutteridge J.M.C. Age pigments and free radicals: fluorescent lipid complexes formed by iron- and copper-containing proteins. Biochim. Biophys. Ada 1985; 834: 144–148
  • Kanner J., Harel S., Hazan B. Muscle membranal lipid peroxidation by an “iron redox cycle” system: initiation by oxy-radicals and site specific mechanism. J. Agric. Food Chem. 1986; 34: 506–510
  • Biaglow J.E. Cellular electron transfer and radical mechanisms in drug metabolism. Rad. Res. Commun. 1981; 86: 212–242
  • Van Der Veen J., Weil J.T., Kennedy T.E., Olcott H.S. Aliphatic hydroxylamines as lipid antioxidants. Lipids 1970; 5: 509–512
  • Klaui H. The functional (technical) uses of vitamins. Vitamins, M. Stein. Churchill Livingstone, London 1971; 110–141
  • Blake D.R., Hall N.D., Bacon PA, Dieppe P.A., Halliwell B., Gutteridge J.M.C. Effect of a specific iron chelating agent on animal models of inflammation. Annals Rheumatic Dis. 1983; 42: 89–93
  • Marklund S., Grankvist K., Talzedal IB. Oxy-radicals in the toxicity of cellular toxins. Oxy Radicals and their Scavenger System, Vol. II. Cellular and Medical Aspects, R.A. Greenwald, G. Cohen. Elsevier, New York 1983; 96–103
  • Osheroff M.R., Schaich KM, Drew R.T., Borg D.C. Failure of desferoxamine to modify the toxicity of paraquat in rats. J. Free Rad. Biol. Med. 1985; 1: 71–82

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