Th2 cytokines IL-4 and IL-13 downregulate paxillin expression in bronchial airway epithelial cells.

Asthma is characterized by infiltration and shedding of the bronchial epithelium. The Th2 cytokines IL-4 and IL-13 are involved in the cellular recruitment and infiltration seen in asthma. The effects of IL-4 and IL-13 on cell-matrix interactions and epithelial shedding are unknown. We hypothesize that bronchial airway epithelial cells (BAEC) express paxillin, a structural focal adhesion protein, and downregulation of paxillin by Th2 cytokines lead to BAEC hyperpermeability. We showed by confocal microscopy the presence of paxillin in BAEC. We demonstrated by Western blot analysis that IL-4 and IL-13 stimulation results in downregulation of paxillin production. IL-4 and IL-13 stimulation decreased epithelial cell-matrix attachment as measured by electrical cell-substrate impedance sensing system (ECIS). Our results suggest that Th2 cytokines IL-4 and IL-13 downregulate paxillin production by BAEC, thereby disrupting the cell-matrix interactions. This may help explain the epithelial shedding and epithelial membrane hyperpermeability that occurs in asthma.

Defensive role of pleural mesothelial cell sialomucins in tumor metastasis.

STUDY OBJECTIVES: Sialomucin complex (SMC) is a heterodimeric glycoprotein, and is found on the surfaces of the mesothelia of the pleura, pericardium, and peritoneum. Sialomucins play a significant role in adhesion as well as in defense. In this study, we hypothesized that pleural mesothelial cells (PMCs) express SMC and thus prevent the adherence of ovarian cancer cells (HTB-77) to the pleura. METHODS: PMCs were plated, and the adherence of HTB-77 cells was observed using a cytofluor. The PMC monolayer was pretreated with sialidase, and HTB-77 adherence was observed using cytofluor. In another set of HTB-77 cells, adherence was observed when the PMC monolayer was pretreated with supernatants of HTB-77 cells. Last, supernatants of HTB-77 cells were assayed for sialidase activity. RESULTS: The removal of SMC by sialidase greatly increased the adherence of HTB-77 cells to the PMC monolayer, which was statistically significant (p < 0.05). Similar results were obtained when the PMC monolayer was pretreated with the supernatants of HTB-77 cells. Supernatants of HTB-77 cells showed the presence of sialidase. CONCLUSIONS: The presence of SMC on the PMC acts as a defense layer, and its removal by sialidase increases the susceptibility of the PMC layer to the adherence of malignant cells and to increased metastasis. HTB-77 cells also express sialidase, which by its action on the monolayer aids in the adherence of tumor cells to the pleural surface.

Pleural mesothelial cell (PMC) defense mechanisms against malignancy.

Tumors such as ovarian, lung, and breast have been found to have a predilection for the pleura. Pleural mesothelial cells (PMCs) play an active role in pleural inflammation via release of cytokines. However, mechanisms whereby PMCs defend themselves against invading malignant cells are unknown. In the present study, we hypothesized that PMCs release the antiangiogenic factor endostatin and inhibit malignant cell invasion. We evaluated the endostatin levels in malignant (MAL) and congestive heart failure (CHF) pleural fluids (PF). Endostatin expression by PMC was also demonstrated by Western analysis and confocal microscopy. Our results demonstrate that CHF PF contained significantly higher levels of endostatin when compared with MAL PF. PMCs alone released a significantly greater amount of endostatin when compared with ovarian cancer cells (OCCs). When the PMC were cocultured with OCCs without contact, there was an increase in the endostatin production. However, when the PMCs were cocultured in direct contact with OCCs the endostatin levels significantly decreased. Endostatin production was upregulated in the presence of tumor cells but not when OCCs were adherent to underlying PMC monolayer. Immunofluorescent staining of PMCs for endostatin correlated with endostatin release. These findings suggest that PMCs play a key role in the antiangiogenesis process by producing endostatin in the pleural space, and thus preventing tumor spread and metastasis in the pleura.