Does lung NAD(P)H:quinone reductase (DT-diaphorase) play an antioxidant enzyme role in protection from hyperoxia?

NAD(P)H:quinone reductase, or DT-diaphorase, has been studied primarily in the liver where it appears to function as an antioxidant-like enzyme in the 2-electron reduction of some quinones to less toxic hydroquinones. This property together with new molecular biology evidence that oxidants such as H2O2 can induce gene transcription of DT-diaphorase provide especially intriguing reasons to examine the possibility that lung DT-diaphorase could have an important antioxidant enzyme role versus pulmonary O2 toxicity during exposure to hyperoxia. We found that similar to the 'classical' lung antioxidant enzymes (superoxide dismutase, catalase and glutathione peroxidase) DT-diaphorase activity increased significantly in the late gestational fetal lung; also its activity was altered in the same way as the antioxidant enzymes by prenatal hormonal treatment. Another similarity is that DT-diaphorase activity was induced in the neonatal animal lung during hyperoxia, but not in the adult animal lung. However, using various drug treatments which markedly increased lung DT-diaphorase activity (e.g., 3-methylcholanthrene, butylated hydroxyanisole, methimazole) we found no improved hyperoxic survival in the treated adult rats. Also, dicumarol treatment, which markedly depressed DT-diaphorase activity, did not diminish the hyperoxic survival rate in an O2-tolerant adult rat model. Thus, we conclude that unlike the classical antioxidant enzymes, increased pulmonary DT-diaphorase activity is probably neither necessary nor sufficient to protect against pulmonary O2 toxicity during hyperoxia.

[1]  A. Malkinson,et al.  Butylated hydroxytoluene (BHT)-mediated increases in NAD(P)H-quinone oxidoreductase (QR) in mouse lung: evidence for the alveolar type II cell as a site of QR activity. , 1988, Toxicology and applied pharmacology.

[2]  L. Frank Developmental aspects of experimental pulmonary oxygen toxicity. , 1991, Free radical biology & medicine.

[3]  D. Warburton,et al.  Ontogeny of antioxidant enzymes in the fetal lamb lung. , 1991, Experimental lung research.

[4]  J. Heffner,et al.  Pulmonary strategies of antioxidant defense. , 1989, The American review of respiratory disease.

[5]  Lars Ernster [56] DT diaphorase , 1967 .

[6]  C. Masters,et al.  Epigenetic interconversions of the multiple forms of mouse liver catalase , 1970, FEBS letters.

[7]  P. O'Brien Molecular mechanisms of quinone cytotoxicity. , 1991, Chemico-biological interactions.

[8]  L. Frank Extension of oxygen tolerance by treatment with endotoxin: means to improve its potential therapeutic safety in man. , 1988, Experimental lung research.

[9]  L. Frank,et al.  Development of lung antioxidant enzyme system in late gestation: possible implications for the prematurely born infant. , 1987, The Journal of pediatrics.

[10]  L. Ernster,et al.  A possible relationship between DT diaphorase and the aryl hydrocarbon hydroxylase system. , 1974, Biochemical and biophysical research communications.

[11]  F. N. David,et al.  Principles and procedures of statistics. , 1961 .

[12]  W. C. Schneider [99] Determination of nucleic acids in tissues by pentose analysis , 1957 .

[13]  W. Valentine,et al.  Studies on the quantitative and qualitative characterization of erythrocyte glutathione peroxidase. , 1967, The Journal of laboratory and clinical medicine.

[14]  C. B. Pickett,et al.  Transcriptional regulation of the rat NAD(P)H:quinone reductase gene. Identification of regulatory elements controlling basal level expression and inducible expression by planar aromatic compounds and phenolic antioxidants. , 1991, The Journal of biological chemistry.

[15]  R P Mason,et al.  Redox cycling and sulphydryl arylation; their relative importance in the mechanism of quinone cytotoxicity to isolated hepatocytes. , 1988, Chemico-biological interactions.

[16]  J. Crapo,et al.  Biology of disease: free radicals and tissue injury. , 1982, Laboratory investigation; a journal of technical methods and pathology.

[17]  W. Pryor Oxy-radicals and related species: their formation, lifetimes, and reactions. , 1986, Annual review of physiology.

[18]  E. Cadenas,et al.  Biochemistry of oxygen toxicity. , 1989, Annual review of biochemistry.

[19]  L. Ernster,et al.  DT-diaphorase as a quinone reductase: a cellular control device against semiquinone and superoxide radical formation. , 1982, Archives of biochemistry and biophysics.

[20]  R. Roberts,et al.  Oxygen Toxicity: Comparison of Lung Biochemical Responses in Neonatal and Adult Rats , 1977, Pediatric Research.

[21]  E. Cadenas,et al.  Effect of superoxide dismutase on the autoxidation of substituted hydro- and semi-naphthoquinones. , 1990, Chemico-biological interactions.

[22]  L. Frank,et al.  Prenatal development of lung antioxidant enzymes in four species. , 1987, The Journal of pediatrics.

[23]  E. Cadenas,et al.  Thiol oxidation coupled to DT-diaphorase-catalysed reduction of diaziquone. Reductive and oxidative pathways of diaziquone semiquinone modulated by glutathione and superoxide dismutase. , 1992, The Biochemical journal.

[24]  P. Whitney,et al.  Use of cyanide and diethyldithiocarbamate in the assay of superoxide dismutases. , 1991, Free radical biology & medicine.

[25]  E. Cadenas,et al.  DT-diaphorase-catalyzed two-electron reduction of quinone epoxides. , 1987, Free radical biology & medicine.

[26]  D. Waxman,et al.  Thyroid hormone stimulation of NADPH P450 reductase expression in liver and extrahepatic tissues. Regulation by multiple mechanisms. , 1992, The Journal of biological chemistry.

[27]  I. Fridovich,et al.  Superoxide dismutase. An enzymic function for erythrocuprein (hemocuprein). , 1969, The Journal of biological chemistry.

[28]  J. Bucher,et al.  OXYGEN TOXICITY IN NEONATAL AND ADULT ANIMALS OF VARIOUS SPECIES.: 1180 , 1978 .

[29]  E. Cadenas,et al.  Redox and addition chemistry of quinoid compounds and its biological implications. , 1989, Free radical biology & medicine.

[30]  A. Jaiswal,et al.  Human NAD(P)H:quinone oxidoreductase (NQO1) gene structure and induction by dioxin. , 1991, Biochemistry.

[31]  T. Rushmore,et al.  The antioxidant responsive element. Activation by oxidative stress and identification of the DNA consensus sequence required for functional activity. , 1991, The Journal of biological chemistry.

[32]  L. Frank,et al.  Potection from oxygen toxicity with endotoxin. Role of the endogenous antioxidant enzymes of the lung. , 1980, The Journal of clinical investigation.

[33]  D. Ross,et al.  A note on the inhibition of DT-diaphorase by dicoumarol. , 1991, Free radical biology & medicine.