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1996 | 43 | 4 |

Tytuł artykułu

Scavenging of oxygen radicals by heme peroxidases

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The reactions of two heme peroxidases, horseradish peroxidase and lactoperoxidase and their compounds II (oxoferryl heme intermediates, Fe(IV)=0 or ferric protein radical Fe(III)R') and compounds III (resonance hybrids [Fe(IIIK)2 «-» Fe(II)-02l with superoxide radical anion generated enzymatically or radiolytically, and with hydroxyl radicals generated radiolytically, were investigated. It is suggested that only the protein radical form of compound II of lactoperoxidase reacts with superoxide, whereas compound II of horseradich peroxidase, which exists only in oxoferryl form, is unreactive towards superoxide. Compound III of the investigated peroxidases does not react with superoxide. The lactoperoxidase activity loss induced by hydroxyl radicals is closely related to the loss of the ability to form compound I (oxoferryl porphyrin n-cation radical, Fed V)=0(Por+) or oxoferryl protein radical Fe(IV)=0(R )). On the other hand, the modification of horseradish peroxidase induced by hydroxyl radicals has been reported to cause also restrictions in substrate binding (Gębicka, L. & Gębicki, J.L., 1996, Biochimie 78,62-65). Nevertheless, it has been found that only a small fraction of hydroxyl radicals generated homogeneously does inactivate the enzymes.

Wydawca

-

Rocznik

Tom

43

Numer

4

Opis fizyczny

p.673-678,fig.

Twórcy

autor
  • Technical University of Lodz, Wroblewskiego 15, 93-590 Lodz, Poland
autor

Bibliografia

  • 1. Dunford, H.B. & Stillman, J.S. (1976) On the fun­ction and mechanism of action of peroxidases. Coord. Chetn. Rev. 19,187-251.
  • 2. Courtin, F., Michot, J.-L., Virion, A., Pommier, J. & Deme, D. (1984) Reduction of lactopero- xidase-H202 compounds by ferrocyanide: Indirect evidence of an apoprotein site for one of the two oxidizing equivalents. Biochem. Biophys. Res. Commun. 121,463-470.
  • 3. Doerge, D.R. & Divi, R.L. (1995) Porphyrin rc-cation and protein radicals in peroxidase catalysis and inhibition by anti-thyroid che­micals. Xenobiotica 25,761-767.
  • 4. Divi, R.L. & Doerge, D.R. (1994) Mechanism- -based inactivation of lactoperoxidase and thyroid peroxidase by resorcinol derivatives. Biochemistry 33,9668-9674.
  • 5. Metodiewa, D. & Dunford, I I.B. (1993) Medical aspccts and techniques for peroxidases and catalases; in Atmospheric Oxidation and Antioxidants (Scott, G., ed.) vol. 3, pp. 287-332, Elsevier Sci. Publ.
  • 6. Metodiewa, D. & Dunford, H.B. (1989) The reactions of horseradish peroxidase, lacto­peroxidase and myeloperoxidase with enzymatically generated superoxide. Arch. Biochem. Biophys. 272.245-253.
  • 7. Bielski, B.H.J., Comstock, D.A., Haber, A. & Chan, P.C. (1974) Study of peroxidase mecha­nism by pulse radiolysis. II. Reactions of horseradish peroxidase compound II with O2. Biochim. Biophys. Acta 350.113-120.
  • 8. Kettle, A.J., Gangster, D.F., Gębicki, J.M. & Winterbourn, C.C. (1988) A pulse radiolysis investigation of the reactions of myelopero­xidase with superoxide and hydrogen peroxide. Biochim. Biophys. Acta 956,58^62.
  • 9. Gębicka, L. & Gębicki, J.L (1993) Reactions of radiolytically-generated superoxide anion with higher oxidation states of lactoperoxidase. Inf. /. Radiat. Biol. 63, 565-568.
  • 10. Gębicka, L. & Gębicki, J.L. (1992) Redox trans­formations in peroxidases studied by pulse radiolysis technique. Radiat. Phys. Chan. 39, 113-116.
  • 11. Gębicka, L. & Gębicki, J.I.. (1996) Modification of horseradish peroxidase induced by hydroxy 1 radicals. The influence of oxygen. Biochimie 78, 62-65.
  • 12. Dun ford, H.B. (1991) Horseradish peroxidase: Structure and kinetic properties; in Peroxidases in Chemistry and Biology (Everse, J., Everse, K.E. & Grisham, M.B., eds.) vol. 2, pp. 1-24, CRC Press, Boca Raton.
  • 13. Winterbourn, C.C. & Metodiewa, D. (1994) The reaction of superoxide with reduced gluta­thione. Arch. Biochem. Biophys. 314, 284-290.
  • 14. Gębicka, U Metodiewa, D. & Gębicki, J.L. (1989) Pulse radiolysis of catalase in solution. 1. reac­tions of O2 with catalase and its compound I. Int. /. Radiat. Biol. 55,43-50.
  • 15. Childs, R.E. & Bardsley, W.G. (1975) The steady-state kinetics of peroxidase with 2,2'-azino-di(3-ethyl-benzothiazoline-6-sulph- onic acid) as chromogen. Biochem. J. 145,93-103.
  • 16. Cuperus, R.A., Muijers, A.O. & Wever, R. (1986) The superoxide activity of myeloperoxidase; Formation of compound III. Biochim. Biophys. Acta 871,78-84.
  • 17. Cai, D. & Tien, M. (1992) Kinetic studies on the formation and decomposition of compounds II and III. /. Biol. Chem. 267,11149-11155.
  • 18. Gębicka, L. & Gębicki, J.L. (1994) Reactions of oxygen radicals with heme peroxidases. Curr. Topics Biophys. 18, 180-183.
  • 19. Kettle, A.J. & Winterbourn, C.C. (1988) Super­oxide modulates the activity of myelopero­xidase and optimizes the production of hypochlorous acid. Biochem.}. 252,529-536.
  • 20. Kobayashi, K., Hayashi, K. & Swallow, A.J. (1990) Reactions of the NAD radical with higher oxidation states of horseradish peroxidase. Biochemistry 29,2080-2084.
  • 21. Santus, R., Patterson, LK. & Bazin, M. (1995) The diffusion-controlled reaction of semioxi- dized tryptophan with the superoxide radical anion. Free Radical Biol. Med. 19,837-842.
  • 22. Jin, F„ Leitich, J. & von Scnntag, C (1993) The superoxide radical reacts with tyrosine-derived phenoxyl radicals by addition rather than by electron transfer. /. Oiem. Soc. Perkin Trans. 2, 1583-1588.
  • 23. Jenzer, H. & Kohler, H. (1986) The role of superoxide radicals in lactoperoxidase-cata- lyzed H202-metabolism and in irreversible enzyme inactivation. Biochem. Biophys. Res. Commun. 139,327-332.
  • 24. Sutton, H.C., Roberts, P.B. & Winterbourn, C.C. (1976) The rate of reaction of superoxide radical ion with oxyhemoglobin and methemoglobin. Biochem. J. 155,503-510.
  • 25. Kobayashi, K. & Hayashi, K. (1983) Application of pulse radiolysis to biochemistry; in Fast Methods in Physical Biochemistry and Cell Biology (Sha'afi, R.I. & Fernandez, S.M., eds.) Elsevier Science Publishers.
  • 26. Modi, S., Behere, D.V. & Mitra,S. (1989) Binding of aromatic donor molecules to lactoperoxidase: Proton NMR and optical difference spectro­scopic studies. Biochim. Biophys. Acta 996, 214- -225.
  • 27. Buxton, G.V., Greenstock, C.L, Helman, W.P. & Ross, A.B. (1988) Critical review of rate con­stants for reactions of hydrated electrons, hy­drogen atoms and hydroxyl radicals (OH /O") in aqueous solution. /. Phys. Chem. Ref. Data 17, 513-886.

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Bibliografia

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