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Experimental Lung Research Volume 10, 1986 - Issue 2
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Original Article

Antioxidant Enzyme Activity in Alveolar Type II Cells after Exposure of Rats to Hyperoxia

Bruce A. Freeman From the Division of Allergy and Respiratory Diseases, Duke University Medical Center, Durham, North Carolina, 27710
,
Robert J. Mason From the Division of Allergy and Respiratory Diseases, Duke University Medical Center, Durham, North Carolina, 27710
,
Mary C. Williams the National Jewish General Hospital, University of Colorado Health Sciences Center, Denver, Colorado, 80206
&
James D. Crapo the Department of Anatomy, University of California, San Francisco, California, 94143
Pages 203-222 | Received 15 Dec 1984, Published online: 02 Jul 2009

References

  • Crapo J D, Tierney D F. Superoxide dismutase and pulmonary oxygen toxicity. Am J Physiol 1974; 226: 1401–1407
  • Tierney D F, Ayers L, Herzog S, Yang J. Pentose pathway and production of reduced nicotinaminde adenine dinucleotide phosphate. Amer Rev Resp Dis 1973; 108: 1348–1351
  • Crapo J D, Sjostrom K, Drew R T. Tolerance and cross-tolerance using NO2 and O2. I. Toxicology and biochemistry. J Appl Physiol 1978; 44: 364–371
  • Yoshida A. Hemolytic anemia and the G6PD deficiency. Sci 1973; 179: 532–537
  • Freeman B A, Crapo J D. Hyperoxia increases oxygen radical production in rat lungs and lung mitochondria. J Biol Chem 1981; 256: 10986–10992
  • Freeman B A, Topolosky M K, Crapo J D. Hyperoxia increases oxygen radical production in rat lung homogenates. Arch Biochem Biophys 1982; 216: 477–484
  • Turrens J F, Freeman B A, Levitt J G, Crapo J D. The effect of hyperoxia on super-oxide production by lung submitochondrial particles. Arch Biochem Biophys 1982; 217: 401–410
  • Turrens J F, Freeman B A, Crapo J D. Hyperoxia increases H2O2 release by lung mitochondria and microsomes. Arch Biochem Biophys 1982; 217: 411–421
  • Deneke S M, Fanburg B L. Normobaric oxygen toxicity of the lung. New Engl J Med 1980; 303: 76–86
  • Frank L, Massaro D. Oxygen toxicity. Am J Med 1980; 69: 117–126
  • McCord J M. Superoxide, superoxide dismutase and oxygen toxicity. Reviews in Biochemical Toxicology, R. Hodgson, J. Bend, R. Philpot. Elsevier North Holland. 1979; 109–124
  • Crapo J D, Peters-Golden M, Marsh-Salin J, Shelburne JS. Pathologic changes in the lungs of oxygen-adapted rats: A mrophometric analysis. Lab Invest 1978; 39: 640–653
  • Mason R J, Williams M C. Type II alveolar cell Defender of the alveolus. Amer Rev Resp Dis 1977; 115: 81–91
  • Evans M J, Cabral L J, Stevens R J, Freeman G. Transformation of alveolar type II cells to type I cells following exposure to NO2. Exp Mol Pathol 1975; 22: 142–153
  • Adamson I YR, Bowden D H. The type II cell as progenerator of alveolar regeneration: A cytodynamic study in mice after exposure to oxygen. Lab Invest 1974; 30: 35–42
  • Mason R J, Williams M C, Greenlead R D, Clements J A. Isolation and properties of type II alveolar cells from rat lung. Amer Rev Resp Dis 1977; 115: 1015–1026
  • Dobbs L G, Geppert E F, Williams M C, Greenleaf R D, Mason R J. Metabolic properties and ultrastructure of alveolar type II cells isolated with elastase. Biochim Biophys Acta 1980; 618: 510–523
  • Boyum A. Isolation of mononuclear cells and granulocytes from human blood. Scand J Clin Lab Invest 1967; 21(Suppl)67–77
  • Williams M C. Conversion of lamellar body membranes into tubular myelin in alveoli of fetal rat lungs. J Cell Biol 1977; 72: 260–277
  • Richards G M. Modifications of the diphenylamine reaction giving increased sensitivity and simplicity in the estimation of DNA. Anal Biochem 1974; 57: 369–376
  • Lowry O H, Rosebrough N J, Farr A L, Randall R J. Protein measurement with the Folin phonol reagent. J Biol Chem 1951; 193: 265–277
  • Massey V. The microestimation of succinate and the extinction coefficient of cytochrome c. Biochim Biophys Acta 1959; 34: 255–256
  • Sottocasa G L, 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 1967; 41: 124–132
  • Bergmeyer H U. Zur messung nov katalase-aktivitaten. Biochem Z 1955; 327: 255–258
  • Löhr G W, Waller H D. Assay of glucose-6-phosphate dehydrogenase. Methods of Enzymatic Analysis, H. U. Bergmeyer. Academic Press, New York 1974; 636–641
  • Beutler E. Glutathione peroxidase. Red Cell Metabolism: A Manual of Biochemical Methods. Grune & Stratton, New York 1975; 71–73
  • Crapo J D, McCord J M, Fridovich I. Superoxide dismutases, preparation and assay. Meth in Enzymol 1978; 53: 382–393
  • Crapo J D, McCord J M. Oxygen induced changes in pulmonary superoxide dis-mutase assayed by antibody titrations. Am J Physiol 1976; 231: 1196–1203
  • Crapo J D, Barry B E, Foscue H A, Shelburne J. Structural and biochemical changes in rat lungs occurring during exposures to lethal and adaptive doses of oxygen. Amer Rev Resp Dis, 122: 123–143
  • Peeters J, Oris C, Vandevoorde A, Baudhuin P. Subcellular localization of superoxide dismutase in rat liver. Biochem J 1975; 150: 31–39
  • Pratt P C. Pathology of pulmonary oxygen toxicity. Amer Rev Resp Dis 1964; 110: 51–62
  • North way W H, Rosan R C, Porter D Y. Pulmonary disease following respiratory therapy of hyaline-membrane disease. New Engl J Med 1967; 276: 357–368
  • Fox R B, Hoidal J R, Brown D M, Repine J E. Pulmonary inflammation due to oxygen toxicity: Involvement of chemotactic factors and polymorphonuclear leukocytes. Amer Rev Resp Dis 1981; 123: 521–523
  • Deneke S M, Fanburg B L. Involvement of glutathione enzymes in O2 tolerance development by diethyldithiocarbamate. Biochem Pharmacol 1980; 71: 1367–1373
  • Yam J, Frank L, Roberts R J. Oxygen toxicity: Comparison of lung biochemical responses in neonatal and adult rats. Ped Res 1975; 12: 115–119
  • Clark J M, Lambertson C J. Pulmonary oxygen toxicity: A review. Pharmacol Rev 1971; 23: 37–133
  • Chvapil M, Peng Y M. Oxygen and lung fibrosis. Arch Environ Health 1975; 30: 528–532
  • Freeman F A, Young S L, Crapo J D. Liposome-mediated augmentation of superoxide dismutase in endothelial cells prevents oxygen injury. J Biol Chem 1983; 258: 12534–12542
  • Thompson G A. Fatty acid biosynthesis. In: The Regulation of Membrane Lipid Metabolism, G. A. Thompson. CRC Press, Boca Raton, FL 1980; 43–61
  • Chow C K, Tappel A L. An enzymatic protective mechanism against lipid peroxi-dation damage to lungs of ozone-exposed rats. Lipids 1972; 7: 518–523
  • Massaro G D, Gail D B, Massaro D. Lung oxygen consumption and mitochondria of alveolar epithelial and endothelial cells. J Appl Physiol 1975; 38: 588–592
  • Hass M A, Frank L, Massaro D. The effect of bacterial endotoxin on synthesis of (Cu,Zn) superoxide dismutase in lungs of oxygen-exposed rats. J Biol Chem 1982; 257: 9379–9383
  • McCord J M, Day E D. Superoxide-dependent production of hydroxyl radical catalyzed by iron-EDTA complex. FEBS Lett 1978; 86: 139–142
  • Halliwell B. Biochemical mechanisms accounting for the toxic action of oxygen on living organisms The key role of superoxide dismutase. Cell Biol Int Rep 1978; 2: 113–128
  • Finkelstein J N, Mavis R D. Biochemical evidence for internal proteolytic damage during isolation of type II alveolar epithelial cells. Lung 1979; 156: 143–154
  • Forman H J, Fisher A B. Antioxidant enzymes of rat granular pneumocytes Constitutive levels and effect of hyperoxia. Lab Invest 1981; 45: 1–6
  • Ody C, Bach-Dieterle Y, Wand I, Junod AF. Effect of hyperoxia on superoxide dismutase content of pig pulmonary artery and aortic endothelial cells in culture. Exp Lung Res 1980; 1: 271–279

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