The rate of production of toxic, partially reduced species of oxygen is thought to increase in hyperoxic lungs, eventually overwhelming endogenous cellular defenses and leading to lung cell damage. However, development of oxygen tolerance in adult rats was often observed after exposure to 85% O2 for 5-7 days and which is correlated with an increased activity of both the copper/zinc and manganese superoxide dismutases in lung tissue. The overall goal of this research is to understand the molecular basis for regulation of gene expression of these antioxidant enzymes in rat lungs in response to oxidant stress. In order to perform these studies, a cDNA clone coding for the CuZn SOD and an additional cDNA clone coding for the Mn SOD have been isolated. These cDNA probes will be employed to quantitate the level of CuZn and Mn SOD mRNAs in in vitro pulmonary endothelial cells and alveolar type II cells with or without hyperoxic exposure to define whether expression of individual SOD gene in response to hyperoxia is different in various types of lung cells. In situ hybridization at electron microscope level will be performed to determine if the observation of changing mRNA level in in vitro lung cells correlates closely with the results obtained in in vivo lung cells. Elevation of SOD mRNA level in lung cells after hyperoxic insult should direct to investigating the mechanisms that are involved in mRNA accumulation. We would further measure the effect of hyperoxia on the copy number of the SOD gene, rate of RNA transcription and mRNA transportation and stability of mRNAs. The role of cis and trans acting elements in regulation of SOD gene expression will also be defined by DNA binding assays and gene transfer experiments if we observed transcriptional activation of these genes in response to hyperoxia. Finally, translation efficiency of these mRNAs and stability of these enzymes will also be determined by pulse labelling and immunoprecipitation experiments to define if hyperoxia affects these enzyme activities on translational and/or post-translational levels. Antioxidant enzymes are critical for cellular defense against oxidant stress. Unravelling of the effect of hyperoxia on the modulation of SOD gene expression is essential for us to uncover the signal(s) generated by hyperoxia, and should also provide valuable information to design strategies for augmenting antioxidant defense in the lungs.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL039585-05
Application #
3356342
Study Section
Special Emphasis Panel (SRC (28))
Project Start
1987-09-30
Project End
1992-07-31
Budget Start
1991-08-02
Budget End
1992-07-31
Support Year
5
Fiscal Year
1991
Total Cost
Indirect Cost
Name
Duke University
Department
Type
Schools of Medicine
DUNS #
071723621
City
Durham
State
NC
Country
United States
Zip Code
27705
Darville, M I; Ho, Y S; Eizirik, D L (2000) NF-kappaB is required for cytokine-induced manganese superoxide dismutase expression in insulin-producing cells. Endocrinology 141:153-62
Ho, Y S; Vincent, R; Dey, M S et al. (1998) Transgenic models for the study of lung antioxidant defense: enhanced manganese-containing superoxide dismutase activity gives partial protection to B6C3 hybrid mice exposed to hyperoxia. Am J Respir Cell Mol Biol 18:538-47
Jackson, R M; Parish, G; Ho, Y S (1996) Effects of hypoxia on expression of superoxide dismutases in cultured ATII cells and lung fibroblasts. Am J Physiol 271:L955-62
Ho, Y S; Dey, M S; Crapo, J D (1996) Antioxidant enzyme expression in rat lungs during hyperoxia. Am J Physiol 270:L810-8
Russell, W J; Ho, Y S; Parish, G et al. (1995) Effects of hypoxia on MnSOD expression in mouse lung. Am J Physiol 269:L221-6
Ho, Y S (1994) Transgenic models for the study of lung biology and disease. Am J Physiol 266:L319-53
Oberley, T D; Coursin, D B; Cihla, H P et al. (1993) Immunolocalization of manganese superoxide dismutase in normal and transgenic mice expressing the human enzyme. Histochem J 25:267-79
Subramanian, R; Volovsek, A; Ho, Y S (1993) Lack of change in MnSOD during ischemia/reperfusion of isolated rat heart. J Mol Cell Cardiol 25:1179-86
Ho, Y S; Howard, A J (1992) Cloning and characterization of the rat glutathione peroxidase gene. FEBS Lett 301:5-9
Ho, Y S; Howard, A J; Crapo, J D (1991) Molecular structure of a functional rat gene for manganese-containing superoxide dismutase. Am J Respir Cell Mol Biol 4:278-86

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