Differential Roles of Macrophages and Microglia in Subretinal Fibrosis Secondary to Neovascular Age-Related Macular Degeneration

PURPOSE: To investigate the differential role of infiltrating CCR2+ macrophages and CX3CR1+ microglia in neovascular AMD (nAMD)-mediated subretinal fibrosis. METHODS: Subretinal fibrosis was induced using the two-stage laser protocol in C57BL/6J or CX3CR1gfp/+ mice. The fibrotic lesion was detected using collagen-1 staining in retinal pigment epithelial /choroidal flatmounts. Infiltrating macrophages and microglial were identified using F4/80, CCR2, and CX3CR1 markers at one, three, six, and 10 days after the second laser. Circulating CCR2+ monocytes were depleted using the MC-21 antibody, whereas CX3CR1+ microglia were depleted using PLX5622. BV2 microglia were treated with TGF-β1 for 96 hours, and their profibrotic potential was examined by quantitative PCR and immunocytochemistry. RESULTS: Subretinal fibrosis lesions developed three days after the second laser, accompanied by persistent CCR2+F4/80+ macrophage and CX3CR1+ cell infiltration. Inflammation in the first three days after the second laser was dominated by filtrating CX3CR1+ cells, and the number increased until day (D) 10 post-second laser. Depletion of CCR2+ monocytes from D5-10 significantly reduced the vascular and fibrotic components of the lesion, while CX3CR1+ cell depletion reduced Isolectin B4+ but not collagen-1+ lesion size. Bone marrow-derived macrophages from D6 and D10 mice expressed significantly higher levels of α-smooth muscle actin (α-SMA) and collagen-1 compared to cells from D1 and D3. TGFβ1 treatment increased TMEM119, CX3CR1, IL1b and iNOS gene expression but did not affect Acta2 and Col1a1 gene expression in BV2 cells. CONCLUSIONS: CCR2+ monocytes, but not CX3CR1+ microglia, critically contribute to the development of subretinal fibrosis in nAMD.