Chimeric antigen receptor (CAR) T cell therapy has consistently shown significant results against acute lymphoblastic leukemia (ALL) in clinical trials1. However, results with other hematological or solid malignancies have been far more modest2. These disparate outcomes could be partially due to an inhibitory tumor microenvironment that suppresses CAR T cell function3. Thus, in order to expand the anti-tumor CAR T cell applications, a novel strategy in which these cells are capable of overcoming the hostile tumor microenvironment is needed.

The cytokine interleukin-18 (IL-18) induces IFN-γ secretion, enhances the Th1 immune response and activates natural killer and cytotoxic T cells4. Early phase clinical trials that utilized systemic administration of recombinant IL-18 for the treatment of both solid and hematological malignancies have demonstrated the safety of this therapy5.

We hypothesize that CAR T cells that constitutively secrete IL-18 could enhance CAR T cell survival and anti-tumor activity, and also activate cells from the endogenous immune system.

To generate CAR T cells that constitutively secrete IL-18, we modified SFG-1928z and SFG-19m28mz CAR T cell constructs and engineered bicistronic human and murine vectors with a P2A element to actively secrete the IL-18 protein (1928z-P2A-hIL18 and 19m28mz-P2A-mIL18, respectively). Human and mouse T cells were transduced with these constructs and in vitro CAR T cell function was validated by coculturing the CAR T cells with CD19+ tumor cells and collecting supernatant for cytokine analysis. Both human and mouse CAR T cells secreted increased levels of IL-18, IFN-γ and IL-2. Proliferation and anti-tumor cytotoxic experiments were conducted with human T cells by coculturing CAR T cells with hCD19+ expressing tumor cells. 1928z-P2A-hIL18 CAR T cells had enhanced proliferation over 7 days and enhanced anti-tumor cytotoxicity over 72 hours when compared to 1928z CAR T cells (p=0.03 and 0.01, respectively)

Next, the in vivo anti-tumor efficacy of the IL-18 secreting CAR T cell was tested in xenograft and syngeneic mouse models. Experiments were conducted without any prior lympho-depleting regimen. In the human CAR T cell experiments, Scid-Beige mice were injected with 1x106 NALM-6 tumor cells on day 0 and 5x106 CAR T cells on day 1. Survival curves showed a significant improvement in mouse survival with the 1928z-P2A-hIL18 CAR T cell treatment when compared to 1928z CAR T cell (p=0.006).

Subsequently, to determine if IL-18 secreting CAR T cells could also improve anti-tumor efficacy in immunocompetent mice, we tested the murine 19m28mz-P2A-mIL18 CAR T cells in a syngeneic mouse model. The C57BL/6 hCD19+/- mCD19+/- mouse model was utilized and injected with 1x106 EL4 hCD19+ tumor cells on day 0 and 2.5 x106 CAR T cells on day 1. Mice treated with 19m28mz-P2A-mIL18 CAR T cells had 100% long-term survival, when compared to 19m28mz (p<0.0001). 19m28mz-P2A-mIL18 CAR T cells were detected in peripheral blood for up to 30 days after injection, whereas the 19m28mz CAR T cells were not detectable at any time point. In addition, 19m28mz-P2A-mIL18 CAR T cells were capable of inducing B cell aplasia for greater than 70 days, whereas 19m28mz treatment was not capable of inducing B cell aplasia. In vivo serum cytokine analysis demonstrated that 19m28mz-P2A-mIL18 CAR T cells, as compared to 19m28mz, significantly increased the levels of IFN-γ and TNF-α in the peripheral blood for up to 14 days after injection (p<0.0001 and 0.01, respectively). Despite the increase in IFN-γ and TNF-α cytokines, there was no increase in IL-6 levels.

Our findings demonstrate that anti-CD19 CAR T cells that constitutively secrete IL-18 significantly increase serum cytokine secretion, enhance CAR T cell persistence, induce long-term B cell aplasia and improve mouse survival, even without any prior preconditioning. To our knowledge, this is the first description of an anti-CD19 CAR T cell that constitutively secretes IL-18 and that induces such high levels of T cell proliferation, persistence and anti-tumor cytotoxicity. We are currently investigating other mechanisms by which this novel CAR T cell functions, its interactions with the endogenous immune system, as well as testing its applicability in other tumor types. We anticipate that the advances presented by this new technology will expand the applicability of CAR T cells to a wider array of malignancies.

Disclosures

Brentjens:Juno Therapeutics: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding.

Author notes

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Asterisk with author names denotes non-ASH members.

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