Tissue resident colonic macrophages persist through acute inflammation and adapt to aid tissue repair

Macrophages are crucial for the maintenance of intestinal homeostasis, are considered key proinflammatory effector cells during intestinal inflammation and are implicated in tissue repair following injury or inflammation. Whether these roles are attributed to distinct subsets of macrophages or if macrophages retain a degree of plasticity in the intestine remains poorly understood. Here, through a combination of single cell RNA sequencing, lineage-tracing and immunofluorescence imaging, we define three major subpopulations of murine, colonic macrophages on the basis of CD11c and CD163 expression. These macrophages occupy discrete anatomical niches and display distinct replenishment kinetics. They all accumulate during acute colitis and Cx3cr1- based fate mapping shows that they persist through to inflammation resolution. Moreover, marked transcriptional differences exist between the macrophages present in health and their counterparts in the post-inflammation environment, demonstrating that inflammation leads to transcriptional rewiring of the resident macrophages in a subset-specific manner. Intriguingly, there were minimal transcriptional changes between long-lived macrophages and their recently differentiated counterparts, indicating the environment exerted a greater influence than ontogeny or the time of residency on their functional states in resolution.