Abstract
BACKGROUND: Neovascular age-related macular degeneration causes vision loss from destructive angiogenesis, termed choroidal neovascularization (CNV). Cx3cr1(-/-) mice display alterations in non-classical monocytes and microglia with increased CNV size, suggesting that non-classical monocytes may inhibit CNV formation. NR4A1 is a transcription factor that is necessary for maturation of non-classical monocytes from classical monocytes. While Nr4a1(-/-) mice are deficient in non-classical monocytes, results are confounded by macrophage hyper-activation. Nr4a1(se2/se2) mice lack a transcriptional activator, resulting in non-classical monocyte loss without macrophage hyper-activation. MAIN BODY: We subjected Nr4a1(-/-) and Nr4a1(se2/se2) mice to the laser-induced CNV model and performed multi-parameter flow cytometry. We found that both models lack non-classical monocytes, but only Nr4a1(-/-) mice displayed increased CNV area. Additionally, CD11c(+) macrophages were increased in Nr4a1(-/-) mice. Single-cell transcriptomic analysis uncovered that CD11c(+) macrophages were enriched from Nr4a1(-/-) mice and expressed a pro-angiogenic transcriptomic profile that was disparate from prior reports of macrophage hyper-activation. CONCLUSIONS: These results suggest that non-classical monocytes are dispensable during CNV, and NR4A1 deficiency results in increased recruitment of pro-angiogenic macrophages.