The role of metals in the enzymatic and nonenzymatic oxidation of epinephrine.

The effects of transition metals on nonenzymatic and ceruloplasmin catalyzed epinephrine oxidation were investigated by studying rates of epinephrine oxidation in purified buffers and in the presence of metal chelating agents. We found that epinephrine does not "autoxidize" in sodium chloride solutions prepared with deionized water that was further purified by chromatography over Chelex 100 resin prior to use. Epinephrine was oxidized rapidly in sodium chloride prepared with tap water (1.20 +/- 0.12 nmoles/min) or in deionized water (0.40 +/- 0.80 nmoles/min), but this oxidation was prevented by the addition of Desferal, a potent metal chelating agent. Epinephrine oxidation was enhanced upon the addition of ceruloplasmin, and this oxidation rate could be slowed, but not eliminated, by the addition of Desferal. If epinephrine solutions were preincubated for 72 hours with Desferal prior to ceruloplasmin addition, however, no oxidation was observed. Epinephrine was shown to form colored complexes with both iron and copper at pH 7.0. The Fe(III)-epinephrine complex was much more stable than was the Cu(II)-epinephrine complex. Oxygen consumption studies of ceruloplasmin catalyzed epinephrine oxidation showed that copper was a better promoter of epinephrine oxidation than was iron, suggesting that ceruloplasmin-catalyzed epinephrine oxidation results from adventitious copper bound to the purified enzyme. In light of these results, the physiological relevance of ceruloplasmin catalyzed oxidation of biogenic amines may be minor.

[1]  S. Aust,et al.  Effects of deferrioxamine on iron-catalyzed lipid peroxidation. , 1992, Archives of biochemistry and biophysics.

[2]  S. Aust,et al.  Rat ceruloplasmin: resistance to proteolysis and kinetic comparison with human ceruloplasmin. , 1992, Archives of biochemistry and biophysics.

[3]  M. Redinbaugh,et al.  Adaptation of the bicinchoninic acid protein assay for use with microtiter plates and sucrose gradient fractions. , 1986, Analytical biochemistry.

[4]  Grahame-Smith Dg,et al.  Catecholamine toxicity : a proposal for the molecular pathogenesis of manganese neurotoxicity and Parkinson's disease , 1984 .

[5]  L. K. Patterson,et al.  The kinetics of the reaction of superoxide radical with Fe(III) complexes of EDTA, DETAPAC and HEDTA , 1983, FEBS letters.

[6]  J. Bucher,et al.  The multiple effects of ethylenediaminetetraacetate in several model lipid peroxidation systems. , 1982, Archives of biochemistry and biophysics.

[7]  D. Graham,et al.  Autoxidation versus covalent binding of quinones as the mechanism of toxicity of dopamine, 6-hydroxydopamine, and related compounds toward C1300 neuroblastoma cells in vitro. , 1978, Molecular pharmacology.

[8]  D. Graham Oxidative pathways for catecholamines in the genesis of neuromelanin and cytotoxic quinones. , 1978, Molecular pharmacology.

[9]  I. Fridovich,et al.  The role of superoxide anion in the autoxidation of epinephrine and a simple assay for superoxide dismutase. , 1972, The Journal of biological chemistry.

[10]  E. Frieden,et al.  Role of iron in the oxidase activity of ceruloplasmin. , 1968, Biochimica et biophysica acta.

[11]  R. Adams,et al.  Electrochemical studies of the oxidation pathways of catecholamines. , 1967, Journal of the American Chemical Society.

[12]  J. Malmejac ACTIVITY OF THE ADRENAL MEDULLA AND ITS REGULATION. , 1964, Physiological reviews.

[13]  W. Harrison Detection of intermediate oxidation states of adrenaline and noradrenaline by fluorescence spectrometric analysis. , 1963, Archives of biochemistry and biophysics.

[14]  O. Walaas,et al.  Spectrophotometric and electron-spin resonance studies of complexes of catecholamines with Cu(II) ions and the interaction of ceruloplasmin with catecholamines☆ , 1963 .

[15]  G. Curzon,et al.  A coupled iron-caeruloplasmin oxidation system , 1960 .

[16]  E. Shorr,et al.  Mechanism of the catalytic oxidation of adrenaline by ferritin. , 1956, The Journal of biological chemistry.

[17]  H. Weil-Malherbe,et al.  On the occurrence of adrenaline and noradrenaline in blood. , 1954, The Biochemical journal.

[18]  P. Chaix,et al.  Caractères comparés de l'oxydation de la noradrénaline et de l'adrénaline évoluant en solution tampon phosphate ou bicarbonate , 1953 .

[19]  C. Laurell,et al.  Investigations in Serum Copper. IV. Effect of Different Anions on the Enzymatic Activity of Coeruloplasmin. , 1951 .

[20]  C. Laurell,et al.  Investigations in Serum Copper. II. Isolation of the Copper Containing Protein, and a Description of some of its Properties. , 1948 .