Mice that lack the p85alpha regulatory subunit of phosphatidylinositol-3 kinase (PI3K) are deficient in gastrointestinal and peritoneal mast cells but have dermal mast cells. Accordingly, these mice show impaired bacterial clearance in response to acute septic peritonitis and are highly susceptible to infection by the intestinal nematode Strongyloides venezuelensis. Systemic anaphylactic shock responses, however, are intact. We found that although reconstitution of PI3Kminus sign/minus sign mice with bone marrow--derived mast cells (BMMCs) restored anti-bacterial immunity, only T helper type 2 (TH2)-conditioned BMMCs, not "standard" BMMCs, were able to restore anti-nematode immunity. This finding highlights the importance of the TH2 response in the control of nematode infection. Thus, PI3K likely plays an essential role in host immune responses by regulating both the development and induction of mast cells.
Summary
Dendritic cells (DCs) are known as antigen‐presenting cells and play a central role in both innate and acquired immunity. Peripheral blood monocytes give rise to resident and recruited DCs in lymph nodes and non‐lymphoid tissues. The ligands of nuclear hormone receptors can modulate DC differentiation and so influence various biological functions of DCs. The role of bile acids (BAs) as signalling molecules has recently become apparent, but the functional role of BAs in DC differentiation has not yet been elucidated. We show that DCs derived from human peripheral blood monocytes cultured with a BA produce lower levels of interleukin‐12 (IL‐12) and tumour necrosis factor‐α in response to stimulation with commensal bacterial antigens. Stimulation through the nuclear receptor farnesoid X (FXR) did not affect the differentiation of DCs. However, DCs differentiated with the specific agonist for TGR5, a transmembrane BA receptor, showed an IL‐12 hypo‐producing phenotype. Expression of TGR5 could only be identified in monocytes and was rapidly down‐regulated during monocyte differentiation to DCs. Stimulation with 8‐bromoadenosine‐cyclic AMP (8‐Br‐cAMP), which acts downstream of TGR5 signalling, also promoted differentiation into IL‐12 hypo‐producing DCs. These results indicate that BAs induce the differentiation of IL‐12 hypo‐producing DCs from monocytes via the TGR5‐cAMP pathway.
Lamina propria macrophages (LPMϕs) spontaneously produce large amounts of anti-inflammatory IL-10 and play a central role in regulation of immune responses against commensal bacteria. MCP-1 is a chemokine that plays an important role in recruitment of monocytes and macrophages to inflamed tissues. We demonstrated that, in addition to IL-10, LPMϕs produced large amounts of MCP-1, even in a steady state. MCP-1 deficiency caused impaired IL-10 production by LPMϕs and led to exacerbation of dextran sulfate sodium-induced acute colitis. As an explanation of this impaired IL-10 production by LPMϕs, we found that LPMϕs could be separated into two subsets with distinct side-scattered properties, namely LPMϕ1 (CD11b+F4/80+CD11c–SSChi) and LPMϕ2 (CD11b+F4/80+CD11c–SSClo). Unlike LPMϕ1, the LPMϕ2 subset migrated in response to MCP-1 and produced a larger amount of IL-10 in response to commensal bacteria. LPMϕs isolated from MCP-1–deficient mice produced less IL-10 as a consequence of the lack of the MCP-1–dependent LPMϕ2 population. This imbalanced composition in LPMϕ population may be involved in the susceptibility to DSS-induced colitis in MCP-1–deficient mice. Our results suggest that endogenous MCP-1 contributes to the composition of resident LPMϕ subsets in the intestine. Moreover, MCP-1–dependent LPMϕ2 subset may play an important role in maintenance of gut homeostasis in the steady state, and in the termination of excess inflammatory responses in the intestine, by producing IL-10.
TL1A expressed in LP-M phi s might play an important role in the pathogenesis of CD by inducing Th1 and Th17 immunity. IL-23 differentially regulated these functions of TL1A on memory and naïve T cells.
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