203. Shortened T Cell Culture with IL-7 and IL-15 Provides the Most Potent Chimeric Antigen Receptor (CAR)-Modified T Cells for Adoptive Immunotherapy

Abstract

Adoptive T cell immunotherapy involves the isolation, ex vivo expansion and reinfusion of patient T cells. The efficacy of adoptive immunotherapy is dependent on the ability of T cells to engraft, expand and persist upon adoptive transfer. In this therapy, T cells are cultured ex vivo using natural or artificial antigen presenting cells that deliver signal 1 (TCR/CD3) and signal 2 (e.g. CD28 co-stimulation) along with exogenously added cytokines. IL-2 is the most commonly used cytokine for ex vivo T cell culture; however, there is renewed interest in IL-7 and IL-15 due to their ability to enhance the survival and proliferation of stem cell memory (Tscm) and central memory (Tcm) T cells. We show that primary human T cells freshly isolated from peripheral blood are heterogeneous with substantial numbers of Tscm and Tcm cells in addition to effector differentiated T cells. During ex vivo culture, these cells progressively differentiate into a population of T cells with a predominantly CD45RO+, CD27-, CCR7- effector differentiated phenotype. Exogenous IL-7 and IL-15 delay this transition in T cell phenotype and preserve a greater proportion of Tscm and Tcm cells in the final ex vivo culture product. We hypothesize that limited ex vivo culture of T cells in the presence of IL-7 and IL-15 rather than IL-2 will enhance engraftment and persistence of T cells in vivo contributing to enhanced efficacy in adoptive transfer. We show that T cells can be harvested and viably frozen from ex vivo cultures as early as day 3 following activation. Early activated T cells expressing a chimeric antigen receptor targeting CD19 (CART-19) show potent yet specific cytotoxicity and cytokine production in vitro. We investigated the therapeutic potential of cells harvested at day 3 versus later time points using a Nalm-6 leukemic cell xenograft mouse model. We demonstrate that day 3 CART-19 cells show potent anti-leukemic activity compared to day 5 or day 9 cells. Comparing CART19 cells cultured in either IL-2 or IL-7/15, we show that mice treated at a 10-fold lower dose with day 3 cells cultured in IL-7/15 exhibit the greatest anti-leukemic efficacy compared with day 9 cells where the latter fail to control leukemia. In summary, we show that limiting T cell culture ex vivo to the minimum required for lentiviral transduction in the presence of IL-7 and IL-15 provides the most efficacious T cells for adoptive T cell immunotherapy.