Summary Passively-administered anti-tumor mAbs rapidly kill tumor targets via FcγR-mediated cytotoxicity (ADCC), a short-term process. However, anti-tumor mAb treatment can also induce a vaccinal effect, in which mAb-mediated tumor death induces a long-term anti-tumor cellular immune response. To determine how such responses are generated, we utilized a murine model of an anti-tumor vaccinal effect against a model neoantigen. We demonstrate that FcγR expression by CD11c+ antigen-presenting cells is required to generate anti-tumor T cell responses upon ADCC-mediated tumor clearance. Using FcγR-humanized mice, we demonstrate that anti-tumor huIgG1 must engage hFcγRIIIA on macrophages to mediate ADCC, but also engage hFcγRIIA, the sole hFcγR expressed by human DCs, to generate a potent vaccinal effect. Thus, while next-generation anti-tumor antibodies with enhanced binding to only hFcγRIIIA are now in clinical use, ideal anti-tumor antibodies must be optimized for both cytotoxic effects as well as hFcγRIIA engagement on DCs to stimulate long-term anti-tumor cellular immunity.
Dendritic cells (DCs) are important antigen presenting cells (APCs) and responsible for the induction of immune responses and preserving peripheral tolerance. We showed that targeting of antigens via C-type lectin receptors to different specialized DC subpopulations induced either CD4+ or CD8+ T cell responses in vivo. Fc receptors are also highly active in endocytosis enabling APCs to take up antigens in form of immune complexes. As they are expressed on various APCs, we aimed to identify responsible APCs for primary and secondary immune responses. Therefore, we assessed their expression in various organs and delivered antigens by specific recombinant antibodies. The targeting of the Fc receptors induced CD4+ and CD8+ T cell responses in a transgenic as well as a naïve system. Moreover, especially antigen delivery to the activating FcγRIV was superior in inducing CD4+ and CD8+ T cell responses at the same time, which could not be observed by classical targeting of the C-type lectin receptors DEC205 or DCIR2. Additionally, targeting of antigens to FcγRIV induced a pronounced CD4 helper response in naïve mice, whereas targeting to DCIR2 was inefficient. As FcγRIV is expressed on both major splenic DC subsets, we used this receptor to verify the subset intrinsic preference of DCs for CD4+ or CD8+ T cell responses. This was clearly shown by the induction of CD4+ T cell responses by splenic CD8− DCs, whereas splenic CD8+ DCs induced a CD8+ T cell response. The induced naïve CD8+ T cell responses were functional relevant, as we could demonstrate efficient dose-dependent killing of target cells in vivo. Therefore, we suggest this strategy as useful tool for the induction of de novo as well as the modulation of immune responses for therapeutic applications.
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