Interactions between alveolar macrophages (AMs) and epithelial cells may promote inflammatory responses to air pollution particles. Normal rat AMs, the alveolar type II epithelial cell line RLE-6TN (RLE), or cocultures of both cell types were incubated with various particles (0-50 microg/ml) for 24 h, followed by assay of released TNF-alpha and MIP-2. The particles used included titanium dioxide (TiO2), alpha-quartz (SiO2), residual oil fly ash (ROFA), or urban air particles (UAP). For all particles, a dose-dependent increase in TNF-alpha and MIP-2 release was observed in AM+RLE co-cultures but not in RLE or AM monoculture. AM+RLE co-culture also synergistically enhanced basal levels of tumor necrosis factor (TNF)-alpha and macrophage inflammatory protein (MIP)-2. In contrast, when AMs were co-cultured with fibroblasts, basal and particle-induced TNF-alpha and MIP-2 were similar to levels found in AM monoculture. Particle uptake by AMs was similar in mono- or AM+RLE co-culture. Increased basal and particle-induced cytokine release were not observed when the AMs were physically separated from the RLE. This contact-dependent cytokine potentiation could not be blocked with anti-CD18/anti-CD54, arginine-glycine-aspartate (RGD) peptide, or heparin. We conclude that in vitro inflammatory responses to particles are amplified by contact-dependent interactions between AMs and epithelial cells. AM-epithelial co-culture may provide a useful model of in vivo particle effects.
The mechanisms underlying airway hyperresponsiveness are still unknown but increased contractility of airway smooth muscle may play a role. This study sought to demonstrate a relationship between in vivo airway responsiveness and a number of measures of airway smooth muscle responsiveness ex vivo, including intracellular Ca(2+) signaling, by comparing three inbred strains of rat with different degrees of airways responsiveness to methacholine. Lewis, ACI, and Fisher strains of rat were characterized for their pulmonary responses to 5-hydroxytryptamine (5HT) in vivo and Fisher rats were found to be hyperresponsive to 5HT compared with ACI and Lewis rats. The responsiveness of the airways from these strains of rat ex vivo revealed that intraparenchymal airways from Fisher rats significantly narrowed to a greater degree and at a faster rate to 5HT than Lewis rat airways, consistent with their differences in vivo. Intraparenchymal ACI airways, however, narrowed to the same degree as Fisher airways but took longer to do so at a high concentration of 5HT. 5HT caused concentration-dependent increases in intracellular Ca(2+) in airway smooth muscle cells from all three strains of rat, but Fisher and ACI displayed higher responses than Lewis airway smooth muscle. Our results demonstrate that the degree of intracellular Ca(2+) mobilization by 5HT in airway smooth muscle parallels the rate and degree of intraparenchymal airway narrowing and suggest that the degree of intracellular Ca(2+) mobilization plays a role in determining airway smooth muscle contractility.
Contractile agonists may stimulate mitogenic responses in airway smooth muscle by mechanisms that involve tyrosine kinases. The role of contractile agonist-evoked activation of tyrosine kinases in contractile signaling is not clear. We addressed this issue using cultured rat airway smooth muscle cells. In these cells, serotonin (5-HT, 1 microM) caused contraction (quantitated by a decrease in cell area), which was blocked by the tyrosine kinase inhibitor genistein (40 microM). Genistein and tyrphostin 23 (40 and 10 microM, respectively) significantly decreased 5-HT-evoked peak Ca(2+) responses, and the effect of genistein could be observed in the absence of extracellular Ca(2+). The specific inhibitor of mitogen-activated protein kinase kinase PD-98059 (30 microM) had no significant effect on peak Ca(2+) levels. Western analysis of cell extracts revealed that 5-HT caused a significant increase in tyrosine phosphorylation of proteins with molecular masses of approximately 70 kDa within 10 s of stimulation but no measurable tyrosine phosphorylation of the gamma isoform of phospholipase C (PLC-gamma). Tyrosine phosphorylation was inhibited by genistein. Furthermore, genistein (40 microM) significantly attenuated 5-HT-induced inositol phosphate production. We conclude that in airway smooth muscle contractile agonists acting on G protein-coupled receptors may activate tyrosine kinase(s), which in turn modulate calcium signaling by affecting, directly or indirectly, PLC-beta activity. It is unlikely that PLC-gamma or the mitogen-activated protein kinase pathway is involved in Ca(2+) signaling to 5-HT.
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