Mechanisms involved in the induction of allergic lung inflammation to serine protease subtilisin.

Occupational asthma is the most common form of pulmonary disease related to work. Most of occupational asthma cases reported are strictly correlated with proteases exposure. Serine protease subtilisin was widely used in the detergent industry during the 60s, which resulted in increased incidence of occupational asthma. We aimed to develop and characterize a murine model of occupational asthma using subtilisin as allergen. Briefly, sensitization and challenge with subtilisin triggered lung allergic inflammation, as accessed by eosinophilic influx to the airways, mucus production, and increased levels of type II cytokines. Subtilisin induced total IgE and airway hyperactivity. Allergic responses to subtilisin were dependent on its serine protease activity, protease-activated receptor (PAR)-2, IL-33 receptor ST2, IL-1R, and Myd88 signaling. Together, these data establish a new murine model of occupational asthma induced by subtilisin and provide the main molecular mechanisms responsible for allergic inflammation. (AU)