In cancer immunotherapy, therapeutic methods targeting NK are highly expected. NK cell-based therapy using NK-92, a human NK cell line, has been clinically evaluated. Delivering mRNA into NK-92 cells is a potent strategy for enhancing its functions. However, the use of lipid nanoparticles (LNP) for this purpose has not yet been evaluated. We previously developed a LNP that was composed of CL1H6 (CL1H6-LNP) for the efficient delivery of siRNA to NK-92 cells, and the use of this material for delivering mRNA to NK-92 cells is reported in this study. Compared with a DLin-MC3-DMA based LNP, used as a benchmark, the CL1H6-LNP caused a high mRNA expression intensity and a cell transfection efficiency of 100%. The efficient mRNA delivery by this CL1H6-LNP is attributed to the high affinity for NK-92 cells and the intense, rapid fusion with the endosomal membrane. It therefore appears that the CL1H6-LNP could be a useful non-viral vector for modifying the NK-92 functions by mRNA. Our findings also provide some insights into the design and development of LNPs for delivering mRNA to NK-92 and NK cells.
Keywords: Ionizable lipid; Lipid nanoparticle; NK cell; NK-92; Non-viral; mRNA.
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