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IFN-? acts on the airway epithelium to inhibit local and systemic pathology in allergic airway disease.


ABSTRACT: Inhibiting allergic airway inflammation is the goal of therapy in persistent asthma. Administration of medication via the airways delivers drug directly to the site of inflammation and avoids systemic side effects but often fails to modulate systemic features of asthma. We have shown that Th1 cells, through production of IFN-?, inhibit many Th2-induced effector functions that promote disease. Using a newly generated mouse that expresses IFN-?R only on airway epithelial cells, we show that the airway epithelium controls a range of pathological responses in asthma. IFN-? acting only through the airway epithelium inhibits mucus, chitinases, and eosinophilia, independent of Th2 cell activation. IFN-? signaling through the airway epithelium inhibits eosinophil generation in the bone marrow, indicating that signals on the airway mucosal surface can regulate distant functions to inhibit disease. IFN-? actions through the airway epithelium will limit airway obstruction and inflammation and may be therapeutic in refractory asthma.

SUBMITTER: Mitchell C 

PROVIDER: S-EPMC3178669 | biostudies-literature | 2011 Oct

REPOSITORIES: biostudies-literature

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IFN-γ acts on the airway epithelium to inhibit local and systemic pathology in allergic airway disease.

Mitchell Charlotte C   Provost Karin K   Niu Naiqian N   Homer Robert R   Cohn Lauren L  

Journal of immunology (Baltimore, Md. : 1950) 20110826 7


Inhibiting allergic airway inflammation is the goal of therapy in persistent asthma. Administration of medication via the airways delivers drug directly to the site of inflammation and avoids systemic side effects but often fails to modulate systemic features of asthma. We have shown that Th1 cells, through production of IFN-γ, inhibit many Th2-induced effector functions that promote disease. Using a newly generated mouse that expresses IFN-γR only on airway epithelial cells, we show that the ai  ...[more]

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