Inhaled pretreatment of mouse lungs with immunomodulatory Pam2ODN results in lung epithelial cell epigenetic reprogramming that is associated with attenuation of house dust mite extract (HDM)-induced cDC2s and moDCs expansion in the lung, causing tolerance against HDM sensitization and restricting Th2-cell-induced airway eosinophilic allergic inflammation.
ABSTRACT
Prophylactic inhalation of the synergistic agents ODN M362 and Pam2CSK4 (“Pam2ODN”) protects mice against allergic lung disease, including allergic inflammation caused by house dust mite (HDM). By preventing sensitization, Pam2ODN reduces HDM-induced eosinophilic and lymphocytic inflammation. How Pam2ODN affects interactions among lung epithelial cells, dendritic cells, and T cells to prevent eosinophilic lung inflammation remains unclear. In the present study, we show that a single inhaled dose of Pam2ODN before HDM sensitization reduces airway Th2 polarization without affecting Th1 or Treg responses. Furthermore, Pam2ODN pretreatment inhibits the recruitment of lung monocyte-derived dendritic cells (moDCs) and conventional Type 2 dendritic cells (DC2s), while preventing the HDM-induced decrease in conventional Type 1 dendritic cells (DC1s). Bulk RNA-seq of the whole lung reveals that Pam2ODN pretreatment restricts the expression of proinflammatory transcripts induced by HDM sensitization. This tolerogenic effect is also reflected at the single-cell level in lung epithelial cells, where proinflammatory transcripts, pathways, and chromatin accessibility are inhibited. These results indicate that Pam2ODN reprograms lung epithelial cells to attenuate allergen-induced Th2-promoting cytokines and DCs while maintaining the population of protective DC1s. These findings suggest a strategy to mitigate chronic allergic lung diseases.