Project description:Macrophage activation syndrome (MAS) is a life-threatening complication of systemic juvenile idiopathic arthritis (SJIA), and increasingly reported in association with severe lung disease (SJIA-LD) of unknown etiology. This study mechanistically defines the novel observation of pulmonary inflammation in the TLR9 mouse model of MAS that recapitulate key features of SJIA-LD, including IFNg activation. In acute MAS, lungs exhibit a mild but diffuse lymphocyte-predominant perivascular, interstitial inflammation with elevated IFNg, IFN-induced chemokines, and alveolar macrophage (AMf) expression of IFNg-induced genes. However, MAS resolution demonstrated AMf expansion and increased interstitial inflammation. AMf microarrays confirmed IFNg-induced proinflammatory polarization during acute MAS, which switches towards anti-inflammatory phenotype during MAS resolution. Interestingly, recurrent MAS increased alveolar inflammation, and reset polarization towards a pro-inflammatory state. Furthermore, in mice bearing macrophages insensitive to IFNg, both systemic feature of MAS and pulmonary inflammation were markedly attenuated. These findings demonstrate experimental MAS induces IFNg-driven pulmonary inflammation, and define this system for further study of and treatment validation in SJIA-LD. We used microarrays to study whole transcriptome analysis of alveolar macrophages in the TLR9 mouse model of MAS during both acute MAS and MAS resolution.
