Equipping Natural Killer Cells with Cetuximab through Metabolic Glycoengineering and Bioorthogonal Reaction for Targeted Treatment of KRAS Mutant Colorectal Cancer.

Abstract

While Cetuximab can be used to treat KRAS wild-type colon cancer cells by targeting EGFR and inhibiting the activation of downstream signaling pathways, it exhibits little therapeutic effect on KRAS mutant colon cancer cells. Natural killer (NK) cells are a class of powerful immune cells with anticancer activities. However, NK cells typically lack inherent tumor targeting abilities. Here, a new method is established to bestow NK-92 cells with tumor targeting abilities by installing cetuximab on the cell surface. Through metabolic glycoengineering, azide groups were introduced onto the surface of NK-92 cells. Bioorthogonal strain promoted the azide-alkyne cycloaddition click reaction of engineered NK-92 cells with alkyne modified cetuximab functionalized NK cells with the antibody. The resulting NK-92 cells were significantly more effective than the parent NK-92 cells in protecting against tumor development in a KRAS mutant mouse tumor model resistant to cetuximab treatment. Thus, NK cell functionalization with antibodies enabled by metabolic glycoengineering is a promising strategy to enhance anticancer immune therapy.