| الملخص: | Chimeric antigen receptor (CAR) therapies have revolutionized cancer treatment by enabling immune cells to target tumor cells with high specificity. While extensive research has focused on optimizing single-chain variable fragment (scFv) affinity in CAR-T cells, its impact on CAR-natural killer (NK) cell function remains less understood. A recent study by Rahnama et al, published in the Journal for ImmunoTherapy of Cancer, addresses this gap by investigating how fine-tuning scFv affinity influences CAR-NK efficacy against acute myeloid leukemia. The study demonstrates that lower-affinity 7G3-based CAR-NK cells exhibit superior antigen discrimination, prolonged persistence, and enhanced tumor control compared with their high-affinity counterparts. However, findings with 26292-based CAR-NK cells reveal a more complex, context-dependent relationship between scFv affinity and cytotoxic function. These results highlight the need for individualized optimization of CAR designs, considering factors such as epitope accessibility, ligand-binding kinetics, and cellular context. Future studies incorporating real-time kinetic analyses and tumor microenvironment modeling will be crucial for refining CAR-NK therapies. Striking the right balance between binding affinity, dwell time, and serial killing capacity could enhance CAR-NK therapeutic potential while minimizing toxicity risks.
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