While recent studies suggest that IL-1β production is modulated by macroautophagy or sensors of ER stress upon pro-inflammatory insult, autophagy and IL-1β production during viral infection has not been fully investigated. This was addressed using respiratory syncytial virus (RSV), which is associated with lung immunopathology, IL-1, and IL-17a secretion in severely infected patients. Mice deficient in the autophagy-associated protein Map1-LC3b (LC3b−/−) developed increased IL-17a-dependent lung pathology upon infection. RSV-infected LC3b−/− DCs fail to upregulate autophagosome formation, secrete IL-1β and IL-6, and elicit IL-17a production from CD4+ T cells. Bone marrow chimeras revealed both structural and hematopoietic LC3b deficiency contribute to the development of IL-17a-dependent lung pathology in vivo. Further investigation revealed airway epithelium as the primary source of IL-1β during infection, while inhibition of the ER-stress sensor IRE-1 in primary airway epithelial cells reduced IL-1β production identifying a primary ER stress pathway. Finally, blockade of IL-1 receptor signaling in RSV-infected LC3b−/− mice abolished IL-17a-dependent lung pathology. These findings provide novel mechanistic insight into the contribution of autophagy- and ER stress-dependent cytokine production that initiate and maintain aberrant Th17 responses, while identifying IL-1 as a potential therapeutic target in the treatment of severe respiratory viral infections.
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