Engineering memory-rich CAR-T cells by a piggyBac transposon system

Abstract

The clinical application of chimeric antigen receptor T-cell therapy (CAR-T therapy) has significantly altered the therapeutic strategy for B-cell tumors and is now being used to treat myeloid and solid tumors. Nonetheless, the efficacy of CAR-T cell therapy for myeloid and solid tumors has been limited, and several studies are being conducted to understand and overcome the underlying mechanisms. Recent research achievements have revealed that the properties of CAR-T cells, particularly their memory function, which can be continuously amplified in the body without exhaustion after administration, are closely related to CAR-T cell clinical efficacy. Furthermore, because the characteristics of CAR-T cells are greatly influenced by the quality of peripheral blood mononuclear cells, the raw material of CAR-T cells, and the T-cell used during the manufacturing process, attention has been drawn to the development of high-quality CAR-T cell manufacturing methods and combination therapies that maintain CAR-T cell memory function and suppress immune exhaustion. This article provides an overview of the current state of CAR-T cell development and clinical application to cancer, particularly emphasizing the development of manufacturing processes and efforts to improve CAR-T cell efficacy in combination therapy with molecular-targeting drugs.