Dietary antioxidants and the biochemical response to oxidant inhalation: I. Influence of dietary vitamin E on the biochemical effects of nitrogen dioxide exposure in rat lung

Abstract

Sprague-Dawley rats derived from a specific pathogen-free colony were raised from birth on a test diet containing either 0 or 50 IU vitamin E/kg diet for 8 weeks. Rats from each dietary group were exposed to 3 ppm (5640 μg/m 3) nitrogen dioxide (NO 2) continuously for 7 days. They were then killed, and the lungs analyzed for changes in weight, DNA and protein contents, tissue oxygen utilization, sulfhydryl metabolism, and the activities of NADP-reducing enzymes. The difference in dietary vitamin E alone did not cause any significant changes in these parameters. However, after NO 2 exposure the changes in these parameters relative to their corresponding unexposed controls were greater for the deficient rats than for the supplemented rats. The biochemical changes observed may be a response of the lung to injury from NO 2 exposure. The larger changes in the lungs of deficient rats may reflect a greater sensitivity of these animals to inhaled NO 2. The vitamin E contents of lung tissue in deficient and supplemented rats reflected the dietary levels. After NO 2 exposure, the vitamin E content in the lung increased significantly in supplemented rats but decreased in the deficient rats relative to their corresponding unexposed controls. The elevation of vitamin E levels in the lungs of supplemented rats with NO 2 exposure suggests its mobilization from other body sites, whereas in deficient rats this process may not have been possible.