Single-cell RNA-sequencing of human spleens reveals an IDO-1+ tolerogenic dendritic cell subset in pancreatic cancer patients that is absent in normal individuals

Local and systemic immunosuppression are prominent features of pancreatic cancer, rendering anti-tumor effector cells inactive and immunotherapeutic approaches ineffective. The spleen, an understudied point of antigen-presentation and T cell priming in humans, holds particular importance in pancreatic cancer due to its proximity to the developing tumor. As main effectors of antigen presentation, dendritic cells display antigens to lymphocytes, thereby bridging the innate and adaptive immune response. While tumor-infiltrating anti-inflammatory dendritic cells have been described, splenic dendritic cells have historically just been considered to stimulate the anti-tumor immune response. Here, we describe, for the first time, the presence of an immunosuppressive, tolerogenic IDO1+ dendritic cell subset in the spleens of pancreatic cancer patients that likely contributes to systemic immunosuppression that is associated with pancreatic ductal adenocarcinoma. Network analysis of scRNA seq data reveals extensive communication networks between the identified tolerogenic DC cluster and numerous immune cell populations in the spleen. Interactions with innate and adaptive immune cells suggest a broad influence on leukocyte trafficking and immune regulation within the spleen microenvironment. The identification of signaling pathways involving AHR and IDO-1, CCL19, NECTIN2, CLEC2D, and others elucidates potential mechanisms underlying the immunosuppressive functions of this cell type. •Splenic tolerogenic DCs contribute to local and systemic immunosuppression in PDAC.•Tolerogenic DCs express IDO1, functional marker of tolerance and immunosuppression.•Extensive communication networks between tolerogenic DCs and other immune cells.•Communication networks include well-known immune-inhibitory signaling pathways.•Findings suggest combination of IDO-1 inhibition and cancer immunotherapy in PDAC.