Mast cell-mediated inflammation relies on insulin-regulated aminopeptidase controlling cytokine export from the Golgi

Abstract

AbstractUpon activation, mast cells rapidly release preformed inflammatory mediators from large cytoplasmic granules via regulated exocytosis. This acute degranulation is followed by a late activation phase involving synthesis and secretion of cytokines, growth factors and other inflammatory molecules via the constitutive pathway that remains ill-defined. Here we describe a role for an insulin-responsive vesicle-like endosomal compartment, marked by insulin-regulated aminopeptidase (IRAP), in the secretion of TNF-α- and IL-6 in mast cells and macrophages. IRAP-deficient mice are protected from TNF-α-dependent kidney injury and inflammatory arthritis. In the absence of IRAP, TNF-α fails to be efficiently exported from the Golgi. Subsequently, reduced co-localization of VAMP3+ endosomes with Stx4 was observed, while VAMP8-dependent exocytosis of secretory granules was facilitated. Chemical targeting of IRAP+ endosomes reduced pro-inflammatory cytokine secretion thereby highlighting this compartment as a promising target for the therapeutic control of inflammation.