True immunological tolerance in solid organ transplantation (SOT) confers long-term allograft survival without the need for immunosuppression. Type 1 conventional dendritic cells (DC1s) have emerged as a cell type of particular interest in this context, owing to their unique transcriptional programming, specialization in cross-presentation, and indispensable role in maintaining self-tolerance. DC1s have traditionally been studied for their potent stimulatory role in tumor and viral immunology, while most DC-based tolerance research has historically focused on the monocyte-derived DC (moDC). A growing body of work highlights a duality of DC1s in both promoting and undermining allo-tolerance, as tissue microenvironment, antigen load, signal integration, and cellular crosstalk all contribute to a complex landscape of DC1 functionality. Recent advances in dendritic cell biology have enabled precise investigation of DC function and ontogeny, and accumulating evidence supports a subset-specific, tolerogenic role of DC1s in solid organ transplantation. Moving beyond murine models, recent early phase clinical trials have demonstrated compelling patient safety and efficacy data for tolerogenic DC-based cellular therapy in SOT. In this review, we discuss the seemingly paradoxical discoveries of DC1s’ supportive and antagonistic roles in allo-tolerance and consider emerging data highlighting their potential capabilities as a novel cellular therapy in SOT.
Shen et al. (Sun,) studied this question.