AI Article Synopsis
- Many military personnel are at risk of lung damage from exposure to the jet fuel JP-8, leading to a study that uses microarray analysis on rat lung tissue.
- The study found significant changes in gene expression: 56 genes were affected at a low dose, with 86% downregulated, while at a higher dose, 66 genes were impacted with 42% upregulated, including genes linked to detoxification and antioxidant responses.
- The results confirm a potential link between JP-8 exposure and gene expression changes that could inform understanding of pulmonary responses in humans exposed to JP-8.
Article Abstract
Many military personnel are at risk of lung damage or systemic toxicity as a result of exposure to the jet fuel JP-8. We have now used microarray analysis to characterize changes in the gene expression profile of lung tissue induced by exposure of rats to JP-8 at a concentration of 171 or 352 mg/m(3) for 1 h/d for 7 d, with the higher dose estimated to mimic the level of occupational exposure in humans. The expression of 56 genes was significantly affected by a factor of /= 1.5 by JP-8 at the low dose. Eighty-six percent of these genes were downregulated by JP-8. The expression of 66 genes was similarly affected by JP-8 at the higher dose, with the expression of 42% of these genes being upregulated. Prominent among the latter genes was that for the centrosome-associated protein gamma-synuclein, whose expression was consistently increased. The expression of various genes related to antioxidant responses and detoxification, including those for glutathione S-transferases and cytochrome P450 proteins, were also upregulated. The microarray data were confirmed by quantitative RT-PCR analysis. Our extensive data set may thus provide important insight into the pulmonary response to occupational exposure to JP-8 in humans.
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| http://dx.doi.org/10.1165/rcmb.2004-0171OC | DOI Listing |
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