Oxygen free radicals induced release of lysosomal enzymes in vitro (original) (raw)

References

  1. Jennische E: Possible influence of glutathione on postischemic liver injury. Acta Pathol Microbiol Scand 92:55–64, 1984
    Google Scholar
  2. Marubayashi S, Dohi K, Ezaki H, Hayashi K, Kawasaki T: Preservation of ischemic rat liver mitochondria) functions and liver viability with CaQ10. Surgery 91:631–637, 1982
    Google Scholar
  3. Vasko KA, DeWall RA, Riley AM: Effect of allopurinol in renal ischemia. Surgery 71:787–797, 1971
    Google Scholar
  4. Shlafer M, Kane PF, Wiggins VY, Kirsh MM: Possible role for cytotoxic oxygen metabolites in the pathogenesis of cardiac ischemic injury. Circulation 66(Suppl I):85–92, 1982
    Google Scholar
  5. Hess ML, Manson NH, Okabe E: Involvement of free radicals in the pathophysiology of ischemic heart disease. Can J Physiol Pharmacol 60:1382–1389, 1982
    Google Scholar
  6. Jolly SR, Kane WJ, Bailie MB, Abrams GD, Lucchesi BR: Canine myocardial reperfusion injury. Its reduction by the combined administration of superoxide dismutase and catalase. Circ Res 54:277–285, 1984
    Google Scholar
  7. Gardner TJ, Stewart JR, Casale AS, Downey JM, Chambers DE: Reduction of myocardial ischemic injury with oxygen derived free radical scavengers. Surgery 94:423–427, 1983
    Google Scholar
  8. Demopoulos HB, Flamm ES, Peitronegro DD, Seligman ML: The free radical pathology and the microcirculation in the major central nervous system disorders. Acta Physiol Scand 492:91–119, 1980
    Google Scholar
  9. Parks DA, Bulkley GB, Granger DN, Hamilton SR, McCord JM: Ischemic injury in the cat small intestine. Role of superoxide radicals. Gastroenterology 82:9–15, 1982
    Google Scholar
  10. Kagan VE, Churakova TO, Karagodin VP, Arkhipenko YV, Bilendo MV, Kozlov YP: Disturbances of the Ca++ transport enzyme system in membranes of the sarcoplasmic reticulum caused by hydroperoxides of phospholipids and of fatty acids. Bull Exp Biol Med 87:124–128, 1979
    Google Scholar
  11. Jennings RB, Reimer KA: Lethal myocardial ischemia injury. Am J Pathol 102:241–255, 1982
    Google Scholar
  12. Chambers DE, Parks DA, Patterson G, Roy R, McCord JM, Yoshida S, Parmley LF, Downey JM: Xanthine oxidase as a source of free radical damage in myocardial ischemia. J Mol Cell Cardiol 17:145–152, 1985
    Google Scholar
  13. Guarnieri C, Flamigni F, Caldarera CM: Role of oxygen in the cellular damage induced by re-oxygenation of hypoxic heart. J Mol Cell Cardiol 12:797–808, 1980
    Google Scholar
  14. Freeman BA, Crapo JD: Biology of disease. Free radicals and tissue injury. Lab Invest 47:412–426, 1982
    Google Scholar
  15. Halliwell B, Gutteridge MC: Oxygen radicals and tissue damage. In: CM Caldarera and P. Harris (eds) Advances in Studies on Heart metabolism. CLVEB, Bologna, 1982, pp 403–411
    Google Scholar
  16. Meerson FZ, Kagan VE, Kozlov YP, Belkina LM, Arkkhipenko YV: The role of lipid peroxidation in pathogenesis of ischemic damage and the antioxidant protection of the heart. Basic Res Cardiol 77:465–485, 1982
    Google Scholar
  17. Spath JA Jr, Lane DL, Lefer AM: Protective action of methylprednisolone on the myocardium during experimental myocardial ischemia in the cat. Circ Res 35:44–51, 1974
    Google Scholar
  18. Wildenthal K: Lysosomal alterations in ischemic myocardium. Result or cause of myocellular damage. J Mol Cell Cardiol 10:595–603, 1978
    Google Scholar
  19. Brachfeld N: Maintenance of cell viability. Circulation 39:202–215, 1969
    Google Scholar
  20. De Duve C, Pressman BC, Gianetto R, Wattiaux R, Applemans F: Tissue fractionation studies. 6. Intracellular distribution patterns of enzymes in rat liver tissue. Biochem J 60:604–617, 1955
    Google Scholar
  21. Sedgwick B, Hübscher G: Metabolism of Phospholipids. IX Phosphatidate phosphohydrolase in rat liver. Biochim Biophys Acta 106:63–77, 1965
    Google Scholar
  22. Sottocasa GL, Kuylenstierna B, Ernster L, Bergstrand A: An electron-transport system associated with the outer membrane of liver mitochondria. A biochemical and morphological study. J Cell Biol 32:415–438, 1967
    Google Scholar
  23. Gianetto R, De Duve C: Tissue Fractionation studies. 4. Comparative study of the binding of acid phosphatase, β-glucuronidase and cathepsin by rat liver particles. Biochem J 59:433–438, 1955
    Google Scholar
  24. Morrison GR, Brock FE, Sobral DT, Shank RE: Coldacclimatization and intermediary metabolism of carbohydrates. Arch Biochem Biophys 114:494–501, 1966
    Google Scholar
  25. Schneider WC: Phosphorus Compounds in animal tissues. 1. Extraction and estimation of desoxypentose nucleic acid and of pentose nucleic acid. J Biol Chem 161:293–303, 1945
    Google Scholar
  26. Burton K: A Study of the conditions and mechanism of diphenylamine reaction for the colorimetric estimation of deoxyribonucleic acid. Biochem J 62:315–323, 1956
    Google Scholar
  27. Gornall AG, Bardawill CJ, David MM: Determination of serum proteins by means of the biuret reaction. J Biol Chem 177:751–766, 1949
    Google Scholar
  28. Jacobs EE, Jacob J, Sanadi DR, Bradley LB: Uncoupling of oxidative phosphorylation by cadmium ion. J Biol Chem 223:147–156, 1956
    Google Scholar
  29. Fong KL, McCay PB, Poyer JL, Keele BB, Misra H: Evidence that peroxidation of lysosomal membrane is initiated by hydroxyl free radicals produced during flavin enzyme activity. J Biol Chem 248:7792–7797, 1973
    Google Scholar
  30. Mak T, Misra HP, Weglicki WB: Temporal relationship of free radical-induced lipid peroxidation and loss of latent enzyme activity in highly enriched hepatic lysosomes. J Biol Chem 258:13733–13737, 1983
    Google Scholar
  31. Singal PK: Ultrastructural evidence for increased sensitivity of the hypertrophied heart to adriamycin. Persp Cardiovasc Res 7:197–209, 1983
    Google Scholar
  32. Ferrans VJ: Overview of cardiac pathology in relation to anthracycline cardiotoxicity. Cancer Treat Rep 62:955–961, 1978
    Google Scholar
  33. Singal PK, Segstro RJ, Singh RP, Kutryk MJ: Changes in lysosomal morphology and enzyme activities during the development of adriamycin-induced cardiomyopathy. Can J Cardiol 1:139–147, 1985
    Google Scholar
  34. Wildenthal K, Decker RS, Poole AR, Griffin EE, Dingle JT: Sequential lysosomal alterations during cardiac ischemia. I. Biochemical and immunohistochemical changes. Lab Invest 38:656–661, 1978
    Google Scholar
  35. De Duve C, Beaufay H: Tissue fractionation studies. 10. Influence of ischemia on the state of some bound enzymes in rat liver. Biochem J 73:610–616, 1959
    Google Scholar
  36. Slater TF: Aspects of cellular injury and recovery. In: EE Bittar and N Bittar (eds) The Biological Basis of Medicine. Vol. 1 Academic Press, New York, 1968, pp 369–414
    Google Scholar

Download references