Monocytes are mononuclear phagocyte precursors that circulate in the blood and comprise two major subsets. Classical monocytes (CM) are highly dynamic and short-lived. Under homeostasis, these cells give rise to selected tissue resident macrophage populations in barrier tissues, as well non-classical monocytes (NCM), that patrol the inner vessel wall and surveille it for integrity. Following injury and pathogen challenges, CM are recruited to the site of inflammation and complement functions of tissue resident mononuclear phagocytes. Interestingly, emerging evidence suggests that CM themselves are heterogeneous. Differential functions and fates of these reported neutrophil- and DC-like monocytes remain however incompletely understood. 

macrophages (red) in small intestinal villi, vasculature (green)

Macrophages - intestine / brain / lung

Tissue macrophages are strategically positioned throughout the organism. As professional phagocytes, they ingest and degrade debris and foreign material, including pathogens, and orchestrate inflammatory processes. Macrophages can be generated from three distinct sources: two early, currently considered transient, hematogenic waves initiated in the yolk sac that seed tissues prenatally, and a pathway involving hematopoietic stem cells and mature blood monocytes, that persists throughout adult life. Most macrophage compartments are established prenatally, and develop independently from each other in their respective host tissue. These cells locally acquire distinct epigenomic and transcriptomic identities, through the imprint influence of the respective microenvironment. While recent studies have revealed critical contributions of tissue macrophages to organ development and homeostasis, specific involvement of discrete subpopulations in the maintenance of the healthy balanced steady-state remain however to be elucidated. Using the mouse as a model, we aim to define functional contributions of specific tissue macrophages to physiology and pathophysiology.

Dendritic cells

Classical Dendritic cells (cDC) are migratory myeloid cells with an unrivaled potential to stimulate naïve T cells. Adoptive transfer experiments have established that cDC are derived from dedicated DC precursors which differentiate in tissue context into distinct DC subsets, including XCR1+ (CD8a+) cDC and CD11b+ DC. Functional differences between these subsets remain incompletely understood, as is their relation to monocyte-derived DC that complement the cDC compartment during inflammation.