MyD88 and IFN‐αβ differentially control maturation of bystander but not Salmonella‐associated dendritic cells or CD11cintCD11b+ cells during infection

The interface between dendritic cells (DCs) and T cells is critical to elicit effective immunity against pathogens. The maturation state of DCs determines the quality of the interaction and governs the type of response. DCs can be matured directly through activating Toll-like receptors (TLRs) or indirectly by cytokines. We explore the role of the TLR adaptor MyD88 on DC maturation during Salmonella infection. Using Salmonella expressing GFP, we also examine the phenotype and function of bacteria-associated DCs matured in the absence of bacteria-mediated TLR signalling. MyD88 was required for upregulation of CD80 on DCs during infection, whereas CD86 and CD40 were upregulated independently of MyD88, although requiring a higher bacterial burden in the MLN. MyD88-independent upregulation was mediated by IFN-alphabeta produced during infection. In infected MyD88(-/-)IFN-alphabetaR(-/-) mice, which lack most bacteria-driven TLR signalling, indirect DC maturation was abolished. In contrast, DCs containing Salmonella upregulated co-stimulatory molecules independently of MyD88 and IFN-alphabeta, revealing a pathway of phenotypic maturation active in infected DCs. However, despite high co-stimulatory molecule expression, Salmonella-containing DCs from MyD88(-/-) or MyD88(-/-)IFN-alphabetaR(-/-) mice had a compromised capacity to activate T cells. Thus, bacterial stimulation of TLRs influences DC function at multiple levels that modulates their capacity to direct antibacterial immunity.