Myelin-phagocytosing Macrophages in Isolated Sciatic and Optic Nerves Reveal a Unique Reactive Phenotype
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Macrophages are key effectors in demyelinating diseases of the central and peripheral nervous system by phagocytosing myelin and releasing immunoregulatory mediators. Here, we report on a distinct, a priori anti-inflammatory reaction of macrophages phagocytosing myelin upon contact with damaged nerve tissue. Macrophages rapidly invaded peripheral (sciatic) and central (optic) nerve tissues in vitro, readily incorporated myelin and expressed high levels of phagocytosis-associated molecules (e.g., Fc and scavenger receptors). In contrast, factors involved in antigen presentation (MHC class-II, CD80, CD86) revealed only a restricted expression. In parallel, a highly ordered appearance of cytokines and chemokines was detected. IL-10, IL-6, CCL22, and CXCL1 were immediately but transiently induced, whereas CCL2, CCL11, and TGFbeta revealed more persisting levels. Such a profile would attract neutrophils, monocytes/macrophages, and Th2 cells as well as bias for a Th2-supporting environment. Importantly, proinflammatory/Th1-supporting factors, such as TNFalpha, IL-12p70, CCL3, and CCL5, were not induced. Still the simultaneous presence of TGFbeta and IL-6 could assist Th17 development, further depending on yet not present IL-23. The release pattern was clearly distinct from reactive phenotypes induced in isolated macrophages and microglia upon treatment with IL-4, IL-13, bacterial lipopolysaccharide, IFNgamma, or purified myelin. Nerve-exposed macrophages thus commit to a unique functional orientation.
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