Strong capacity of differentiated PD-L1 CAR-modified UCB-CD34 cells and PD-L1 CAR-modified UCB-CD34-derived NK cells in killing target cells and restoration of the anti-tumor function of PD-1-high exhausted T Cells.

BACKGROUND

Using natural killer (NK) cells to treat hematopoietic and solid tumors has great promise. Despite their availability from peripheral blood and cord blood, stem cell-derived NK cells provide an "off-the-shelf" solution.

METHODS

In this study, we developed two CAR-NK cells targeting PD-L1 derived from lentiviral transduction of human umbilical cord blood (UCB)-CD34 cells and UCB-CD34-derived NK cells. The transduction efficiencies and in vitro cytotoxic functions including degranulation, cytokine production, and cancer cell necrosis of both resultants PD-L1 CAR-NK cells were tested in vitro on two different PD-L1 low and high-expressing solid tumor cell lines.

RESULTS

Differentiated CAR‑modified UCB-CD34 cells exhibited enhanced transduction efficiency. The expression of anti-PD-L1 CAR significantly (P < 0.05) enhanced the cytotoxicity of differentiated CAR‑modified UCB-CD34 cells and CAR-modified UCB-CD34-derived NK cells against PD-L1 high-expressing tumor cell line. In addition, CAR-modified UCB-CD34-derived NK cells significantly (P < 0.05) restored the tumor-killing ability of exhausted PD-1 high T cells.

CONCLUSION

Considering the more efficient transduction in stem cells and the possibility of producing CAR-NK cell products with higher yields, this approach is recommended for studies in the field of CAR-NK cells. Also, a pre-clinical study is now necessary to evaluate the safety and efficacy of these two CAR-NK cells individually and in combination with other therapeutic approaches.