Abstract
Severe asthma is characterized by steroid insensitivity and poor symptom control, and is responsible for the majority of asthma-related hospital costs. Therapeutic options remain limited, in part due to limited understanding in mechanisms driving severe asthma. Increased arginine methylation, catalyzed by protein arginine methyltransferases (PRMTs), is increased in asthmatic lungs. Here, we show that PRMT5 drives allergic airway inflammation in a mouse model reproducing multiple aspects of human severe asthma. We find that PRMT5 is required in CD4+ T cells for chronic steroid-insensitive severe lung inflammation, with selective T cell deletion of PRMT5 robustly suppressing eosinophilic and neutrophilic lung inflammation, pathology, airway remodeling and hyperresponsiveness. Mechanistically, we observed high pulmonary sterol metabolic activity, ROR-γt and Th17 responses, with PRMT5-dependent increases in ROR-γt’s agonist desmosterol. Our work demonstrates that T cell PRMT5 drives severe allergic lung inflammation and has potential implications for the pathogenesis and therapeutic targeting of severe asthma.
Competing Interest Statement
MG-de-A is an inventor on a PRMT5 inhibitor patent.
Footnotes
↵1 co-first authors