CAR-T therapy has shown excellent therapeutic efficacy in B-cell malignancy. Nevertheless, manufacturing stability, quality control, and CAR T-cell availability are still challenging because current CAR T-cell therapy is a personalized product derived from patient peripheral T-cells. However, allogeneic T-cells have emerged as a novel source to overcome this issue. Because induced pluripotent stem (iPS) cells are pluripotent stem cells derived from somatic cells and have in vitro self-renewal ability and pluripotency, they are expected to be a source of many regenerative medicinal products. Recently, it has become possible to generate CD8 killer T cells from iPS cells, and efforts have been made to generate CAR-CD8 killer T-cells from allogeneic iPS cells. This review discusses the induction of CD8 killer T-cells from iPS cells, efforts to improve the safety and certainty of the induction process for clinical use, and the utility of gene editing to reduce allogeneic antigenicity of iPS T-cells.
Keywords: Cytotoxic T-cell differentiation; Hypoimmunogenic CAR T-cells; Induced pluripotent stem cells; Xenogeneic component-free manufacturing.