The Effect of SO2on the Uptake of Particles by Mouse Bronchial Epithelium

Abstract

In three experiments, we have explored the uptake and transport of colloidal gold (Au) and iron oxide (Fe₂O₃) by normal and SO₂-injured bronchial epithelium. In the first experiment, mice were exposed to a 2-hr aerosol of Au; in the second experiment, mice were exposed to SO₂ (250 ppm) for 3 hr, then to Au; and in the third experiment, mice inhaled SO₂ and then were exposed to Fe₂O₃. In each experiment, animals were killed at 0 hr, 1 day, and 4 days postexposure. From each animal, samples of large airways were examined by electron microscopy, and the cell type and particle location were recorded. Au was not readily taken up by the bronchial epithelium in that only two cells out of 1162 contained particles. No Au was seen in the submucosa. Exposure to SO₂ produced a mild, but nonnecrotic response characterized by an increase in mucus, vacuolated cells, detached cilia, and an influx of polymorphonuclear leukocytes. SO₂ did not affect the uptake of Au; 2 out of 1177 epithelial cells contained Au. However, gold did reach the submucosa. Results from the SO₂ plus Fe₂O₃ experiment were compared to a previous study of similar design in which mice were exposed only to Fe₂O₃. SO₂ increased the uptake of iron and affected the distribution of intracellular iron among the different cell types. It is possible that increased iron uptake is due to either injury or to changes in particle solubility produced by the SO₂.