Bax is crucial for IFN-gamma-induced resolution of allergen-induced mucus cell metaplasia.

Allergic airway responses cause proliferation of epithelial cells and mucus cell metaplasia (MCM), and the resolution of MCM involves reduction of cell numbers. The role of inflammation and apoptosis on this process was investigated in P-selectin +/+ and -/- mice sensitized and challenged with OVA by analyzing the expression and the role of regulators of apoptosis in metaplastic mucus cells. No differences were observed in MCM at 5 days of allergen exposure between +/+ and -/- mice, despite reduced IL-13 levels in -/- mice. Although IL-4 levels were similar in both -/- and +/+ mice, IL-13 and IL-5 levels had decreased and IFN-gamma levels were increased earlier in -/- compared with +/+ mice. MCM levels were decreased 4-fold at 7 days of allergen exposure in -/- mice and at 15 days in +/+ mice. The percentage of Bax-expressing mucus cells increased significantly at 7 days in -/- mice and at 10 days in +/+ mice. The Bax-positive mucus cells exhibited caspase-specific cleavage of cytokeratin 18. IFN-gamma caused Bax expression in IL-13-induced MCM in microdissected airway cultures. MCM remained significantly elevated in Bax -/- mice following 15 days of allergen exposure compared with +/+ mice, while the number of eosinophils was reduced in both Bax +/+ and -/- mice at 15 days. Together, these data demonstrate that reduced IL-13 levels were sufficient to elicit maximum MCM, that IFN-gamma induces Bax in metaplastic mucus cells, and that Bax plays a critical role in the resolution of MCM, but not in the resolution of eosinophils.