TNF and IL-1 Play Essential but Temporally Distinct Roles in Driving Cardiac Inflammation in a Murine Model of Kawasaki Disease.

In this study, we show that TNF signaling is active in the acute phase of cardiac inflammation, which is characterized by a diffuse myocarditis that precedes the development of coronary vasculitis. Mechanistically, TNF is produced by the myeloid cells and triggers acute cardiac inflammation by stimulating both stromal and immune compartments of the heart. In contrast to this early involvement for TNF, IL-1 signaling is dispensable for the development of acute myocarditis. Critically, although mice deficient in IL-1 signaling have extensive acute inflammation following C. albicans water-soluble complex challenge, they do not develop coronary vasculitis. Thus, TNF and IL-1 appear to play temporally distinct roles in KD, with TNF being active in acute cardiac inflammation and IL-1 in the subsequent development of coronary vasculitis. These observations have important implications for understanding the progression of cardiac pathology in KD and the relative therapeutic use of targeting these cytokines. PMID: 30996002 [PubMed - as supplied by publisher]
Source: Journal of Immunology - Category: Allergy & Immunology Authors: Tags: J Immunol Source Type: research