Recent studies showed that via IL-10 production, antibody-secreting B lineage cells formed in a germinal center independent manner and exhibiting a CD138+ phenotype of plasmablasts can efficiently control T cell mediated autoimmunity and inflammation. It was suggested that these "regulatory" plasmablasts resemble direct descendants of immature/regulatory B cells, though this issue could not be clarified so far. In contrast, current work from our group indicate that the production of immuno-regulatory IL-10 is also observed in plasmablasts and plasma cells derived from IgD+ naïve B cells, and also in murine and human myeloma cells. Hence, suggesting that IL-10 production and regulatory properties are not restricted to a certain subset of plasmablasts, but are more general features of plasmablasts/plasma cells generated under various conditions. Moreover, we showed that plasma cell derived IL-10 can not only regulate inflammatory T cell responses, but also directly down-modulates neutrophil functions, and that this mechanism is important for the development of clinically relevant immunodeficiency and increased susceptibility to infection, observed in plasmacytosis-associated diseases. Our preliminary data indicate that plasma cell IL-10 also has a considerable effect on monocyte macrophage differentiation and their inflammatory/anti-inflammatory functions, which is observed already under physiological conditions.In this proposal, we aim to test our hypothesis that IL-10+ "regulatory plasma cells" are derived either from immature/regulatory B cells or from other B cell types, depending on the context of the respective immune reaction; and that these cells have a profound effect directly on innate effector cells. Phenotype, homing capacities, lifetime/maturation stage and clonal relationship of IL-10+ plasma cells to IL-10- plasma cells and other B cell subtypes will be investigated. The role of plasma cell derived IL-10 on neutrophil and macrophage functions and its consequence for immunity and inflammation will be further studied under physiological conditions, in the context of sterile plasmacytosis and during infection.

DFG Programme Research Grants