Rac2 regulates immune complex–mediated granule polarization and exocytosis in neutrophils

Abstract

Abstract A key molecule for neutrophil degranulation is Rac2 guanosine triphosphatase. Neutrophils from Rac2 knockout mice (Rac2−/−) exhibit impaired primary granule exocytosis in response to cytochalasin B/f-Met-Leu-Phe, while secondary and tertiary granule release is unaffected. Coronin 1A, a protein involved in actin remodeling, is diminished in Rac2−/− neutrophils. However, primary granule exocytosis from Rac2−/− neutrophils has not been determined using more immunologically relevant stimuli. We sought to determine the role of Rac2 in degranulation and actin cytoskeleton rearrangement in response to immobilized immune complexes and relate this to intracellular coronin 1A localization. We used bone marrow neutrophils from wild-type and Rac2−/− mice stimulated with immobilized immune complexes. Secretion of primary (myeloperoxidase), secondary (lactoferrin), and tertiary granule (MMP-2 and MMP-9) products was evaluated. Subcellular colocalization of coronin 1A with actin and the primary granule marker CD63 was determined by deconvolution microscopy. We found major differences in myeloperoxidase, MMP-2, and MMP-9 but not lactoferrin release, along with diminished filopodia formation, CD63 polarization, and colocalization of coronin 1A with CD63 in immune complex–stimulated Rac2−/− bone marrow neutrophils. Rac2 and coronin 1A were found associated with granules in cytochalasin B/f-Met-Leu-Phe–activated human neutrophils. This report confirms a role for Rac2 in immunologically relevant stimulation of neutrophil granule exocytosis. Rac2 appears to attach to neutrophil granules, polarize CD63+ granules to the cell surface in a manner dependent on coronin 1A, and induce filopodia formation. Our studies provide insight into mechanisms of Rac2-mediated regulation of granule exocytosis.