Liu, Y.; Jacquelin, S.; Taylor, I.; Green, E. K.; Patkar, O. L.; Keshvari, S.; Ranpura, G.; O'Brien, C. J. O.; Jessen, E.; Maxwell, E.; Allavena, R.; Gallerand, A.; IVANOV, S.; Humphreys, N. E.; Adamson, A. D. E.; Summers, K. M.; Irvine, K. M.; Hume, D. A.

Expression of the Csf1r gene in cells of the mononuclear phagocyte lineage is regulated by a conserved enhancer, the fms-intronic regulatory element (FIRE). In mice with a germ-line deletion of FIRE (Fireko) CSF1R expression is undetectable in bone marrow progenitors and classical monocytes. Fireko mice lack subpopulations of macrophages in the brain and periphery but develop normally. Here we show that loss of CSF1R expression in Fireko mice is partly overcome by CSF2 in vitro and inflammatory recruitment in vitro. Analysis of heterozygous mutant mice and deletion of the conserved AP1 motif in FIRE provide evidence that continuous receptor synthesis determines CSF1 responsiveness. The absence of macrophages in kidney and heart of Fireko mice was not associated with detectable loss of physiological function. In a model of renal injury macrophage recruitment and histopathology were similar in WT and Fireko mice. Tissue resident macrophages that were depleted in Fireko mice, including microglia, were replaced by donor-derived cells following intraperitoneal adoptive transfer of wild-type bone marrow at weaning. The Fireko mouse provides a novel platform to dissect the functions of tissue resident macrophages in development, homeostasis and pathology.