Am. J. Respir. Cell Mol. Biol., Vol 12, No. 2, Feb 1995, 220-226.
Hydroxyl radical production and lung injury in the rat following silica or titanium dioxide instillation in vivo
RM Schapira, AJ Ghio, RM Effros, J Morrisey, UA Almagro, CA Dawson and AD Hacker
Division of Pulmonary and Critical Care Medicine, Medical College of Wisconsin.
The hydroxyl radical (.OH) is a highly reactive oxygen free radical that
has been implicated as a cause of lung injury following exposure to silica
and silicates. Despite evidence that silica generates .OH in vitro, there
has been no previous demonstration of in vivo production of .OH after
exposure to nonfibrous mineral oxide dusts. We tested the hypothesis that
instillation of silica into rat lungs is associated with greater .OH
production and acute lung inflammation in vivo relative to the instillation
of a less toxic nonsilicate particle, titanium dioxide. The production of
.OH in the lungs following dust instillation was measured using sodium
salicylate as an .OH trap. Seven days after dust exposure, the rats were
given intraperitoneal salicylate, the lungs isolated, and salicylate
hydroxylation products (2,3- and 2,5-dihydroxybenzoic acid), reflecting
.OH, were measured. There was significantly more 2,3-dihydroxybenzoic acid
in silica- exposed lungs compared with lungs instilled with titanium
dioxide. In addition, the instillation of silica into rat lungs in vivo was
associated with a greater acute inflammatory response. We conclude that
following in vivo exposure, silica stimulates greater .OH production
relative to the less toxic particle, titanium dioxide. These differences in
.OH generation correspond to disparities in acute lung inflammation.
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Copyright © 1995 American Thoracic Society.
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