Engineered natural killer (NK) cell-based therapies have been potentially broadly applicable and exhibited promising results in clinical trials, particularly in the fight against cancers. NK cell immunotherapy however always remains… Click to show full abstract
Engineered natural killer (NK) cell-based therapies have been potentially broadly applicable and exhibited promising results in clinical trials, particularly in the fight against cancers. NK cell immunotherapy however always remains variable. One major obstacle is the inhibitory pathway including PD1/PDL1, providing tumor cells an escape mechanism from immunosurveillance. In this regard, we rationally designed a chimeric switch-receptor (CSR) PD1-DAP10-41BB, which comprising the ectodomain of PD1 fused to the co-stimulatory receptor DAP10 and 41BB. Therefore, by exchanging the transmembrane and cytoplasmic tail of PD1 with positive costimulatory molecules DAP10 and 41BB signaling domains, the negative PD1/PDL1 signal pathway was thus converted into a positive one. This CSR-expressing NK92 cells showed a typical parental NK92 phenotype and improved cytotoxicity against human lung cancer H1299 cells. Besides, the expression of CSR elicited a significant increase of effector molecules such as perforin and granzymes, which can induce apoptosis of H1299 cells. More importantly, in the solid tumor cell H1299-bearing mice model, the CSR-modified NK92 cells significantly inhibited tumor growth. Collectively, we demonstrated that expression of PD1-DAP10-41BB augmented NK92-cell activation and killing in vitro and in vivo, which provides a considerable avenue of using NK-tailored chimeric receptor engineered NK92 cells to treat a wide range of solid tumors.
               
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