Magnetic Delivery of Antigen-Loaded Magnetic Liposomes for Active Lymph Node Targeting and Enhanced Anti-Tumor Immunity

Therapeutic cancer vaccines offer the greatest advantage of enhancing antigen-specific immunity against tumors, particularly for immunogenic tumors, such as melanoma. However, clinical responses remain unsatisfactory, primarily due to inadequate T cell priming and the development of acquired immune tolerance. A major obstacle lies in the inefficient uptake of antigen by peripheral dendritic cells (DCs) and their migration to lymph nodes for antigen presentation. In this context, the magnetic delivery of antigen-loaded magnetic liposomes (Ag-MLs) to actively target lymph node, is proposed. These magnetic responsive liposomes contain soluble mouse melanoma lysate and iron oxide nanoparticles in the core, along with the immunostimulatory adjuvant CpG-1826 incorporated into the lipid bilayer. When applied through magnetic targeting in the mouse melanoma model, Ag-MLs accumulate significantly in the target lymph nodes. This accumulation results in increased population of active DCs in lymph nodes and cytotoxic T lymphocytes (CTLs) within tumors, correlating with effective tumor growth inhibition. Overall, this study demonstrates the potential of magnetic targeting as an effective strategy for delivering cancer vaccines and activating the immune response, offering a novel platform for cancer immunotherapies. The concept of magnetic delivery of antigen-loaded magnetic liposomes (Ag-MLs) containing tumor lysate and iron oxide nanoparticles in the core, along with CpG adjuvant in the lipid bilayer, is proposed. Magnetic targeting of Ag-MLs in a mouse melanoma model increases Ag-MLs accumulation in lymph nodes, boosting active DCs and CTLs, leading to potent tumor inhibition.image

Automated summary

This study demonstrates the potential of magnetic targeting as an effective strategy for delivering cancer vaccines and activating the immune response. By targeting antigen-loaded magnetic liposomes to the lymph nodes, the population of active dendritic cells and cytotoxic T lymphocytes is increased, resulting in effective tumor growth inhibition.