The mechanisms that regulate germinal center (GC) B cell responses in the spleen are not fully understood. Here we use a combination of pharmacologic and genetic approaches to delete SIGN-R1+marginal zone (MZ) macrophages and reveal their specific contribution to the regulation of humoral immunity in the spleen. We find that while SIGN-R1+macrophages were not essential for initial activation of B cells, they were required for maturation of the response and development of GC B cells. These defects could be corrected when follicular helper T (Tfh) cells were induced before macrophage ablation or when Tfh responses were enhanced. Moreover, we show that in the absence of SIGN-R1+macrophages, DCIR2+dendritic cells (DCs), which play a key role in priming Tfh responses, were unable to cluster to the interfollicular regions of the spleen and were instead displaced to the MZ. Restoring SIGN-R1+macrophages to the spleen corrected positioning of DCIR2+DCs and rescued the GC B cell response. Our study reveals a previously unappreciated role for SIGN-R1+macrophages in regulation of the GC reaction and highlights the functional specification of macrophage subsets in the MZ compartment.
The PI3K pathway plays a key role in B cell activation and is important for the differentiation of Ab producing plasma cells (PCs). Although much is known about the molecular mechanisms that modulate PI3K signaling in B cells, the transcriptional regulation of PI3K expression is poorly understood. In this study, we identify the zinc finger protein Zbtb18 as a transcriptional repressor that directly binds enhancer/promoter regions of genes encoding class I PI3K regulatory subunits, subsequently limiting their expression, dampening PI3K signaling and suppressing PC responses. Following activation, dividing B cells progressively downregulated Zbtb18, allowing gradual amplification of PI3K signals and enhanced development of PCs. Human Zbtb18 displayed similar expression patterns and function in human B cells, acting to inhibit development of PCs. Furthermore, a number of Zbtb18 mutants identified in cancer patients showed loss of suppressor activity, which was also accompanied by impaired regulation of PI3K genes. Taken together, our study identifies Zbtb18 as a repressor of PC differentiation and reveals its previously unappreciated function as a transcription modulator of the PI3K signaling pathway.
The most effective responses to intracellular pathogens have a breadth of T-cell clones with different affinities for their cognate peptide, and a diversity of functional phenotypes, from effector to long-lived memory cells. While high- and low-affinity T-cells are inherently skewed towards becoming effector and memory, respectively, overall, both functional subsets exploit a wide range of affinities. How the breadth of affinities and functionalities are coordinated is therefore unclear. In this study, we provide evidence that direct sensing of the cytokine IFN-γ by CD8+ T-cells is a factor controlling the integration of T-cell affinity and differentiation during infection. IFN-γ increases the expansion of low-affinity T-cells, allowing them to overcome the selective advantage of high-affinity T-cells. Concomitantly, IFN-γ reinforces high-affinity T-cell entry into the memory pool. As a result, direct IFN-γ sensing by CD8+ T-cells increases the avidity of the memory response. This comes at the expense of the primary T-cell response, for which IFN-γ decreases the avidity, leading to sub-optimum immunity to infection. IFN-γ sensing by CD8+ T-cells is paracrine, provided by a distinct subset of CD8+ T-cells called Virtual Memory T-cells, an antigen inexperienced subset that harbors memory features. Overall, we propose that IFN-γ and Virtual Memory T-cells fulfil a critical immunoregulatory role by enabling the coordination of T-cell avidity and fate.
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