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Free Radical Research Communications Volume 12, 1991 - Issue 1
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Original Article

Do the Copper Complexes of Histamine, Histidine and of Two H2-Antagonists React with O2?

Sofia G. Konstantinova Institute of Physiology, Bulgarian Academy of Sciences, 1113, Sofa, Bulgaria
,
Ina E. Russanova Faculty of Physics, University of Sofa, 1126, Sofa, Bulgaria
&
Elevter M. Russanov Institute of Physiology, Bulgarian Academy of Sciences, 1113, Sofa, Bulgaria
Pages 215-220 | Published online: 07 Jul 2009

References

  • Arvidsson S., FäIt K., Marklund S., Haglund U. Role of free oxygen radicals in the development of gastrointestinal mucosal damage in Escherichia coli sepsis. Circulatory shock. 1985; 16: 383–393
  • Itoh M., Guth P. H. Role of oxygenderived free radicals in hemorragie shock-induced gastric lesions in the rat. Gastroenterology. 1985; 88: 1162–1167
  • Perry M. A., Wadhwa S., Parks D. A., Pickard W., Granger N. Role of oxygen radicals in ischemia-induced lesions in the cat stomach. Gastroenterology 1986; 90: 362–7
  • Ozaki I., Kume S., Okashi T. Erects of histamine agents and antagonists on luminol-dependent chemiluminescence of granulocytes. Agents and Actions. 1984; 15: 182–188
  • Tarnok I., Tarnok Z. Interaction of cimetidinc (CIM) and histamine (HIS) with superoxide (SUP) generated in 1) 3 cell-free system and 2) in human neutrophils (PMN). 15th Meeting of the Europeon Histamine Research Society. 1986; 1986, Abstract 10. p7
  • Sorenson J. R. J. The anti-inflammatory activities of copper complexes. metal ions in biological systems, H. Sigel. Marcel Dekker Inc., New York and Basel 1982; 77–124
  • Crouch R. K., Kensler T. W., Oberley L. W., Sorenson J. R. J. Possible medical uses of copper complexes. Biological and Inorganic Copper Chemistry. Adenine Press. 1985
  • Kimura E., Koike T., Shimizu Y., Kodama M. Complexes of the histamine H2-antagonist cimetidine with divalent copper ions. Inorganic Chemistry. 1986; 25: 2242–2246
  • Weinstein Y., Bielski B. H. J. Reaction of superoxide radicals with copper(II)-histidine complexes. Journnl of American Chemicol Society 1979; 102: 4916–4919
  • Gerdin B., Carlin G., Djursater R. SOD-like activity of copper-histidine in plasma and buffer. Superoxide and superoxide dismutase in chemistry. biology and medicine, G. Rotilio. Elsevier science publishers, Amsterdam – New York –, Oxford 1986
  • Russanov E. M., Ljutacovaand S. G., Leutchev St. I. Effect of CuSO4 and Cu(II)(Gly)2 on some indirect assays for superoxide dismutase activity. Archives of Biochemistry and Biophysics. 1982; 215: 222–229
  • Goldstein S., Czapski G. The role and mechanism of metal ions and their complexes in enhancing damage in biological systems or in protecting there systems from the toxicity of O−2. Journal of Free Radicals in Biology and Medicine 1986; 2: 3–11
  • Czapski G., Goldstein S., Meyentein D. What is unique about superoxide toxicity as compared to other biological reductants? – a hypothesis. Free Rodical Research Communications. 1988; 4: 231–236
  • Goldstein S., Ch Michel, Bors W., Saran M., Czapski G. A critical reevaluation of some assay methods for superoxide dismutase activity. Journal of Free Radicals in Biology and Medicine. 1988; 4: 295–303
  • Greenway F. T., Brown L. M., Ddbrowiak J. C., Thonison M. R., Day V. M. Copper (II) complexes of the antiulcer drug cimetidine. Journal of Americal Chemical Society. 1980; 102: 7782–7784
  • Sarcar B., Wigfield Y. The structure of copper (II) histidine chelate. The Journal of Biological Chemistry. 1967; 242: 5572–5577
  • McCord J. M., Fridovich I. Superoxide dismutase. An enzymic function for erythrocuprien (Hemocuprien). The Journal of Biological Chemistry. 1969; 224: 6049–6055
  • Beauchamp Ch., Fridovich I. Superoxide dismutase: Improved assays and an assay applicable to acrylamide gels. Analytical Biochemistry. 1971; 44: 276–2117
  • Nishikirni M., Rao N. A., Yagi K. The Occurence of superoxide anion in the reaction of reduced phendzine methosulfate and molecular oxygen. Biochemical and Biophysical Research Communications. 1972; 46: 849–854

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