The interaction of air particles and alveolar macrophages (AMs) may result in the release of proinflammatory cytokines. Normal mouse AMs were treated with concentrated air particle (CAPs) suspensions in vitro. After 5...
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The interaction of air particles and alveolar macrophages (AMs) may result in the release of proinflammatory cytokines. Normal mouse AMs were treated with concentrated air particle (CAPs) suspensions in vitro. After 5 h, cytokine release [macrophage inflammatory protein-2 (MIP-2) and tumor necrosis factor-alpha (TNF-alpha)] and phagocytosis of ambient air particles were measured. CAPs samples collected from urban air (Boston) on different days were used. The CAPs samples and their soluble and solid components caused significant MIP-2 and TNF-alpha production. Variability in the potency of samples collected on different days was observed. Trace endotoxin was measured in CAPs;samples (EU/mg: 2.3 +/- 0.7, mean +/- SE, n = 10). A majority of biologic activity (cytokine induction) and endotoxin content was associated with the solid components. Neutralization of endotoxin by polymyxin B abrogated >80% of TNF-alpha induction by CAPs samples, but inhibited MIP-2 production by only similar to 40%. The trace endotoxin present in CAPs caused much more MIP-2 production than predicted by concentration alone (28 +/- 8-fold increase, n = 9), indicating synergistic interaction with other AM-activating components of the particles. Data suggest that low levels of endotoxin may interact with air particles to activate lung macrophages.
Environmental and occupational exposure to vanadium Oil dusts results in inflammation mainly confined to the respiratory tract. Macrophages apparently play an important role in mediating the inflammation via the produ...
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Environmental and occupational exposure to vanadium Oil dusts results in inflammation mainly confined to the respiratory tract. Macrophages apparently play an important role in mediating the inflammation via the production of many chemokines. In the current study, we investigated whether vanadium can regulate the gene expression of a CXC chemokine macrophage inflammatory protein-2 (MIP-2), and to determine the molecular mechanisms controlling MIP-2 gene expression. A mouse macrophage cell line RAW 264.7 was treated with sodium metavanadate (NaVO3) at the dose of 0.5, 5, or 10 mu g/ml V. Northern blot analysis showed that induction of MIP-2 mRNA expression was in a dose-dependent manner. To define the time course of the inflammatory response, RAW 264.7 cells were exposed to 5 mu g/ml V, MIP-2 mRNA in macrophages increased markedly as early as 1 h after treatment, maximally induced at 4 h and reduced to 2-fold above control levels by 6 and 8 h. The protein Levels of MIP-2 in conditioned media, measured by enzyme-linked immunosorbent assay (ELISA), was well correlated with the levels of MIP-2 mRNA following all of the treatments in the study. In addition, the increase in MIP-2 mRNA expression by vanadium was attenuated by co-treatment with the antioxidant. N-acetylcysteine (NAC), at the doses of 10 and 20 mM, suggesting that the induction of MIP-2 mRNA is mediated via the generation of reactive oxygen species (ROS). To further investigate transcriptional regulation of the MIP-2 gene expression by vanadium, we performed RNA decay assay by measuring the half-life of MIP-2 mRNA. Go-treatment of macrophages with the transcriptional inhibitor actinomycin D at 5 mu g/ml following exposure to 5 mu g/ml V for 4 h revealed complete stabilization of vanadium-induced MIP-2 mRNA and no sign of mRNA degradation, at least, for 6 h, in comparison to the half-life of MIP-2 mRNA was approximately 2.5 h by bacterial lipopolysaccharide (LPS) treatment, supporting post-transcriptional sta
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