Mesenteric lymph node (mLN) CD103 (αE integrin)+ dendritic cells (DCs) induce regulatory T cells and gut tolerance. However, the function of intestinal CD103− DCs remains to be clarified. CD47 is the ligand of signal regulatory protein α (SIRPα) and promotes SIRPα+ myeloid cell migration. We first show that mucosal CD103− DCs selectively express SIRPα and that their frequency was augmented in the lamina propria and mLNs of mice that developed Th17-biased colitis in response to trinitrobenzene sulfonic acid. In contrast, the percentage of SIRPα+CD103− DCs and Th17 responses were decreased in CD47-deficient (CD47 knockout [KO]) mice, which remained protected from colitis. We next demonstrate that transferring wild-type (WT), but not CD47 KO, SIRPα+CD103− DCs in CD47 KO mice elicited severe Th17-associated wasting disease. CD47 expression was required on the SIRPα+CD103− DCs for efficient trafficking to mLNs in vivo, whereas it was dispensable on both DCs and T cells for Th17 polarization in vitro. Finally, administration of a CD47-Fc molecule resulted in reduced SIRPα+CD103− DC–mediated Th17 responses and the protection of WT mice from colitis. We thus propose SIRPα+CD103− DCs as a pathogenic DC subset that drives Th17-biased responses and colitis, and the CD47–SIRPα axis as a potential therapeutic target for inflammatory bowel disease.
The past decades have been marked by spectacular progress towards understanding how dendritic cells (DCs) interact with T cells to elicit protective immune responses to fight infectious diseases and cancer. DCs that are lying at the interface between innate and adaptive immunity, are educated in peripheral tissues prior to their journey to the secondary lymphoid organs (SLO) whereby they dictate different classes of T cell responses. Uncontrolled or unwanted inflammatory responses are the price to pay to eliminate pathogens. However, if not self-limited, they may induce collateral damages that result in chronic inflammation often associated with autoimmune disorders. CD47 and its two ligands, i.e. thrombospondin 1 (TSP-1) and SIRP-alpha, were identified as a previously unappreciated inhibitory axis of DC and T cell functions. TSP-1 is predominantly a negative regulator of DC and T cell function while basal SIRP-alpha ligation on APC by CD47 enforces tolerance. Yet, CD47/SIRP-alpha interaction positively controls DC and innate cell transendothelial migration. Due to the promiscuity of the protein interactions for CD47 and its ligands, it is quite interesting to note that deletion of the CD47 gene in mice largely agrees with the in vitro data with human cells. In fact, the well-conserved tissue distribution of CD47 and SIRP-alpha across species may facilitate the transition from bench to bedside. We thus propose CD47/TSP-1/SIRP-alpha axis as an important sensor to maintain homeostasis and regulate innate and adaptive immune responses.
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