Ozone exposure, food restriction and protein deficiency: changes in collagen and elastin in rodent lung |
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| Authors: | B A Myers M A Dubick K M Reiser J E Gerriets J A Last R B Rucker |
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| Affiliation: | 1. Departments of Nutrition (College of Agricultural and Environmental Sciences), University of California, Davis, CA 956I6 U.S.A.;2. Internal Medicine (School of Medicine), University of California, Davis, CA 956I6 U.S.A.;3. California Primate Center, University of California, Davis, CA 956I6 U.S.A. |
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| Abstract: | Two groups of weanling or young adult rats were fed ad lib casein-based diets containing 4 or 16% protein. Food was restricted in a third group (fed the 16% protein diet) to the amount consumed daily by rats (adult or weanlings) fed the 4% diet. After 3 weeks (weanlings) or 1, 3 or 5 weeks (adults), one-half of the rats in each group were exposed to 0.64 ppm (1.28 mg/m3) of ozone for 7 days (23.5 h each day). Several parameters were then evaluated related to lung connective tissue metabolism including: (1) total lung hydroxyproline, (2) total lung elastin, (3) apparent rates for lung collagen synthesis and elastin accumulation and (4) lung and body weights. In general, the response to protein deficiency and food restriction was more pronounced than to ozone exposure. Protein deficiency and food restriction resulted in decreased lung size and collagen content. However, the ability of lung to respond to ozone (in relative terms) was not altered by changes in diet as assessed by changes in lung weight or the collagen synthetic rate. |
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| Keywords: | Ozone diet lung collagen elastin protein deficiency |
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