Efficient Innate Immune Killing of Cancer Cells Triggered by Cell‐Surface Anchoring of Multivalent Antibody‐Recruiting Polymers

Binding of monoclonal antibodies (mAbs) onto a cell surface triggers antibody‐mediated effector killing by innate immune cells through complement activation. As an alternative to mAbs, synthetic systems that can recruit endogenous antibodies from the blood stream to a cancer cell surface could be of great relevance. Herein, we explore antibody‐recruiting polymers (ARPs) as a novel class of immunotherapy. ARPs consist of a cell‐binding motif linked to a polymer that contains multiple small molecule antibody‐binding motifs along its backbone. As a proof of concept, we employ a lipid anchor that inserts into the phospholipid cell membrane and make use of a polymeric activated ester scaffold onto which we substitute dinitrophenol as an antibody‐binding motif. We demonstrate that ARPs allow for high avidity antibody binding and drive antibody recruitment to treated cells for several days. Furthermore, we show that ARP‐treated cancer cells are prone to antibody‐mediated killing through phagocytosis by macrophages.