Innate Immune Functions of Macrophages in Different Tissue Environments

Reviews by Gray and Cyster [4] and den Haan and Kraal [5] present the remarkable heterogeneity of macrophages in lymph nodes and spleen, respectively, at the interface between lymph, blood and the immune system. Subcapsular and marginal zone macrophages express unique pattern recognition receptors, interact with Band Tlymphocyte subpopulations, and bridge the innate and adaptive immune systems by presenting antigens and serving as portals to virus infection. The splenic red pulp provides a reservoir of macrophages [6] and plays a major role in iron homeostasis. As described by Ganz [7] , iron from senescent erythrocytes that have been cleared in spleen and liver is recycled, a process regulated by the hepatocyte peptide hepcidin and the macrophage exporter ferroportin. In the gut and gut-associated lymphoid tissue, as discussed by de Campos et al. [8] , P2X7 purinergic receptors illustrate the importance of site-specific modulation of receptor function. These receptors are expressed heterogeneously, depending on their location, for example in mesenteric lymph nodes or the peritoneum, and display differential sensitivity in macrophages, lymphocytes and epithelium. The anterior chamber of the eye is an immunologically privileged site. Bronkhorst and Jager [9] describe the inflammatory, macrophage-rich infiltrate in the highly malignant human uveal intra-ocular melanoma, associAlthough the recognition, signaling and secretory responses of macrophages to innate immune stimuli have been extensively documented ex vivo and in vitro, we have limited knowledge of the role of the local microenvironment in modulating macrophage functions in situ. Tissue populations represent the vast majority of macrophages in the body, and display considerable heterogeneity in their specialised trophic and antimicrobial functions such as phagocytosis and cytotoxicity. Phenotypic antigen expression by resident, recruited and immunologically activated macrophages varies markedly with lympho-hemopoietic and non-lymphoid location, but the tissue factors responsible for extensive macrophage microheterogeneity and its functional significance remain obscure. This special issue features selected reviews dealing with this topic. Whilst the local environment is a crucial determinant, Cortez-Retamozo et al. [1] draw attention to the distinct tropism and differential pathophysiological functions of newly recruited lineage precursors for macrophages and dendritic cells, responding to infectious, metabolic and neoplastic stimuli. Recent studies, elsewhere, by the Geissmann [2] and Merad [3] groups, indicate that Langerhans cells, microglia and perhaps other resident macrophages of adult mice originate from yolk sac precursors, raising the possibility of selective manipulation of cells of different origin. Published online: June 12, 2012 Journal of Innate Immunity