Enhanced in vitro transfection efficiency of mRNA-loaded polyplexes into natural killer cells through osmoregulation

High expression of externally injected in vitro transcribed (IVT) mRNA in natural killer (NK) cells is a prerequisite for NK cell-mediated cell therapy. To enhance the transfection efficacy of IVT mRNA-loaded polyplexes, we exposed NK cells to a hypertonic condition during transfection, which facilitated endo/exocytosis to maintain the isotonic state of the cells. The transfection efficacy of IVT mRNA was significantly enhanced after 24 h, which was mainly due to the facilitated cellular uptake and endosomal escape of the polyplexes. Interestingly, osmotic alterations in NK cells significantly affect the expression levels of endosome-escape-related genes in ion channels. Treatment with a mild hypertonic condition exhibited negligible toxicity to NK cells, without disturbing the integrity of the cellular membranes or the innate cytotoxic abilities of NK cells against cancer cells. These results demonstrate that the hypertonic treatment of NK cells enhances the transfection efficacy of IVT mRNA to produce genetically engineered NK cells.