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Nonactivated and IL-7 cultured CD19-specific CAR T cells are enriched in stem cell phenotypes and functionally superior

Siao‐Yi Wang, Gina Scurti, Annika V. Dalheim, Suzanne Quinn, Patrick J. Stiff, Michael I. Nishimura

2023Blood Advances15 citationsDOIOpen Access PDF

Abstract

ABSTRACT: CD19-specific chimeric antigen receptor (CAR) T cells have demonstrated impressive responses in patients with relapsed and refractory B cell malignancies. However, many patients relapse or fail to respond to CD19 CAR T cells, demonstrating the need to improve its efficacy and durability. Current protocols for generating CAR T cells involve T cell activation through CD3 stimulation to facilitate efficient CAR transfer followed by ex vivo expansion with exogenous cytokines to obtain adequate cell numbers for treatment. Both T cell activation and expansion inevitably lead to terminal differentiation and replicative senescence, which are suboptimal for therapy. Interleukin-7 (IL-7) was previously shown to allow for lentiviral transduction of T cells in the absence of activation. In these studies, we used IL-7 to generate CD19 CAR T cells without stimulating CD3. Nonactivated and IL-7 cultured (NICE) CD19 CAR T cells were enriched with the T memory stem cell population, retained novel markers of stemness, had lower expression of exhaustion markers, and increased proliferative potential. Furthermore, our findings are consistent with engraftment of NICE CD19 CAR T cells and demonstrate a superior therapeutic response in both intraperitoneal and subcutaneous in vivo B cell lymphoma models. These results suggest that NICE CD19 CAR T cells may improve outcomes for B cell malignancies and warrant clinical evaluation.

Topics & Concepts

CD19Chimeric antigen receptorT cellImmunologyCell therapyAdoptive cell transferStem cellPopulationCD28BiologyInterleukin 3Cancer researchInterleukin 21Cell biologyAntigenMedicineImmune systemEnvironmental healthCAR-T cell therapy researchSilicon Carbide Semiconductor TechnologiesAdvancements in Semiconductor Devices and Circuit Design