Abstract
Cancer vaccines aim to efficiently prime cytotoxic CD8+ T cell responses which can be achieved by vaccine targeting to dendritic cells. CD169+ macrophages have been shown to transfer antigen to dendritic cells and could act as an alternative target for cancer vaccines. Here, we evaluated liposomes containing the CD169/Siglec-1 binding ligand, ganglioside GM3, and the non-binding ligand, ganglioside GM1, for their capacity to target antigens to CD169+ macrophages and to induce immune responses. CD169+ macrophages demonstrated specific uptake of GM3 liposomes in vitro and in vivo that was dependent on a functional CD169 receptor. Robust antigen-specific CD8+ and CD4+ T and B cell responses were observed upon intravenous administration of GM3 liposomes containing the model antigen ovalbumin in the presence of adjuvant. Immunization of B16-OVA tumor bearing mice with all liposomes resulted in delayed tumor growth and improved survival. The absence of CD169+ macrophages, functional CD169 molecules, and cross-presenting Batf3-dependent dendritic cells (cDC1s) significantly impaired CD8+ T cell responses, while B cell responses were less affected. In conclusion, we demonstrate that inclusion of GM3 in liposomes enhance immune responses and that splenic CD169+ macrophages and cDC1s are required for induction of CD8+ T cell immunity after liposomal vaccination.
Highlights
Checkpoint inhibitors have emerged as a powerful immu notherapy for cancer patients, the majority of cancer patients still do not benefit from this treatment regimen [1,2,3]
We and others have previously shown that CD169+ macrophages efficiently capture pathogens and antibody-conjugated antigens from lymph fluid and blood and stimulate robust CD8+ T cell responses in collaboration with cross-presenting DC1s [11,12,13,14,16,42]
We show that CD169+ macrophages efficiently take up CD169targeted GM3-containing liposomes, and non-targeted liposomes
Summary
Checkpoint inhibitors have emerged as a powerful immu notherapy for cancer patients, the majority of cancer patients still do not benefit from this treatment regimen [1,2,3]. To stimulate cytotoxic CD8+ T cells, vaccine-delivered tumor antigens need to be presented by crosspresenting DCs (cDC1) in an effective manner. This process is often suboptimal, exposing a bottleneck in cancer vaccine development [9,10]. The direct induction of anti-tumor T cell responses by CD169+ macrophages has been proposed [14,15]. These observations suggest that vac cines that are efficiently taken up by CD169+ macrophages may opti mally stimulate anti-tumor immunity
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