Nayak et al. demonstrated that delivery of gp96 induced signaling in CD91+ APCs that was necessary to cross-prime T cells and initiate antitumor immunity. CD91-expressing migratory APCs, predominantly cDC1s, captured tumor-derived gp96 and distributed it to lymph node-resident APCs upon migration to the lymph nodes. A CD91-induced transcriptome in APCs promoted cross-priming of T cell responses while downregulating immune regulatory pathways. CD91 on cDC1 was essential for T cell responses to nascent tumors, while gp96-cross-primed lymph node-resident APCs sustained long-term tumor rejection.
Contributed by Shishir Pant
ABSTRACT: During cancer immunosurveillance, dendritic cells (DCs) play a central role in orchestrating T-cell responses against emerging tumors. Capture of miniscule amounts of antigen along with tumor-initiated costimulatory signals can drive maturation of DCs. Expression of CD91 on DCs is essential in cross-priming of T-cell responses in the context of nascent tumors. Multiple DC and macrophage subsets express CD91 and engage tumor-derived gp96 to initiate antitumor immune responses, yet the specific CD91+ antigen-presenting cells (APCs) that are required for T-cell cross-priming during cancer immunosurveillance are unknown. In this study, we determined that CD91 expression on type 1 conventional DCs (cDC1) is necessary for cancer immunosurveillance. Specifically, CD91-expressing cDC1 were found to capture the CD91 ligand gp96 from tumors and, upon migration to the lymph nodes, distribute gp96 among lymph-node resident APCs. However, cDC1 that captured tumor-derived gp96 only provided early tumor control, while sustained and long-term tumor rejection was bestowed to the host by other gp96+ cross-priming DCs. We further found that the CD91-induced transcriptome in APCs promoted cross-priming of T-cell responses while downregulating immune regulatory pathways. Our results show an elaborate and synchronized division of labor of APCs in the successful elimination of cancer cells via CD91. We predict that the specialized functions of APC subsets can be harnessed for immunotherapy of disease.