Abstract 493: Neutrophil and Macrophage Cell Surface Colony-Stimulating Factor-1 is Shed by a Disintegrin and Metalloprotease 17 and Contributes to Stimulating Macrophage Proliferation in Inflammation

Abstract

Recent studies highlight a role for macrophage proliferation post monocyte recruitment in inflammatory conditions, such as atherosclerosis. However, the mechanisms regulating macrophage proliferation are not well understood. Using an acute peritonitis model, we identified a 40 ± 8% reduction (mean ± SEM; n=5; p<0.01) in macrophages in the S phase of the cell cycle 40 hrs post thioglycollate injection in mice lacking the transmembrane protease ADAM17 in hematopoietic cells. ADAM17 is a member of a disintegrin and metalloprotease family that cleaves many cell surface proteins involved in inflammation. The macrophage proliferation defect in ADAM17 null chimeras was associated with a 60 ± 10% (n=5; p<0.001) decrease in soluble macrophage colony-stimulating factor (CSF)-1 in the peritoneum, and was rescued by intraperitoneal injection of CSF-1. We demonstrate that neutrophils, the first innate immune cell that migrates into inflammatory sites, and macrophages are both major sources of cell surface (cs)CSF-1 in this acute inflammation model, adding to the current knowledge that stromal, epithelial and endothelial cells are sources of CSF-1. We show that ADAM17 is critical in mediating csCSF-1 release in the inflamed peritoneum, and that this release following neutrophil extravasation is associated with elevated expression of iRhom2, a member of the rhomboid-like superfamily, which promotes ADAM17 maturation and trafficking to the cell surface. Accordingly, deletion of hematopoietic iRhom2 is sufficient to prevent csCSF-1 release from neutrophils and macrophages, thus recapitulating the defect in macrophage proliferation seen in ADAM17 null cells. Our data indicate that csCSF-1 release and macrophage proliferation is self-limiting in states of acute inflammation due to the transient nature of leukocyte recruitment and temporally restricted csCSF-1 expression and release. In chronic inflammation such as atherosclerosis, we show that macrophage proliferation is decreased by 30 ± 7% (n=6; p<0.01) in atherosclerotic lesions of ADAM17 hematopoietic null LDL receptor-deficient mice fed a high fat diet for 16 weeks. Together, these results demonstrate a novel mechanism governing macrophage proliferation in both acute and chronic inflammation.