Abstract
The molecular mechanisms responsible for the “atopic march” of allergic skin disease to allergic airway disease are incompletely understood. Secreted phospholipase A2 group X (sPLA2-X) is implicated in human asthma and modulates airway hyperresponsiveness (AHR) and inflammation in murine models of allergic asthma. We developed a complete proteolytic allergen model of dermal sensitization followed by airway challenge to mimic the “atopic march” and examined the role of sPLA2-X in regulating peripheral allergen sensitization, AHR, and airway inflammation. Pla2g10–/– mice receiving both house dust mite (HDM) peripheral sensitization and airway challenge had attenuated AHR relative to WT mice and lower airway eosinophils. Transgenic C57BL/6 hPLA2G10 mice (only expressing the human sPLA2-X gene) receiving treatment with a small molecule inhibitor of sPLA2-X (ROC0929) during the dermal sensitization phase demonstrated attenuated AHR and a reduction HDM-specific tissue-resident memory CD4+ T cells in the lung. Thus, sPLA2-X acts as an endogenous adjuvant to facilitate allergic sensitization in the periphery, which leads to AHR and airway inflammation following inhalation of the allergen. These results provide proof of concept that inhibition of sensitization in the periphery with a sPLA2-X inhibitor modulates subsequent allergen-induced airway dysfunction.
Authors
Ryan C. Murphy, Ying Lai, Yu-Hua Chow, Matt Liu, Brian D. Hondowicz, Dowon An, Marion Pepper, William A. Altemeier, Teal S. Hallstrand
