Abstract 4232: More than a bridging therapy: Targeting CD123 with rapidly switchable universal CAR-T cells for treatment of acute leukemia

Abstract Chimeric antigen receptor T-cell (CAR-T) therapy targeting CD19 or BCMA is tremendously effective in treating hematological malignancies. However, the application of CAR-T beyond certain B-cell malignancies such as ALL, MM, lymphoma and CLL remains challenging due to the lack of tumor-specific antigens and the limited ability to control acute and potential long term CAR-T reactivity in patients. Therefore, a rapidly switchable universal CAR-T platform (UniCAR) was developed. In this system, antigen-specificity is provided by soluble adaptors of short pharmacokinetic half-life, termed targeting modules (TM), which redirect T-cells engineered to express a universal CAR against tumors, allowing for excellent controllability of CAR-T reactivity while maintaining the high anti-tumor activity of CAR-T cells. Here we present results from late stage pre-clinical characterization of UniCAR-T targeting CD123 (UniCAR-T-CD123) for treatment of acute leukemia. Pre-clinical characterization confirmed specificity and safety of the approach. UniCAR-T proofed to be per se inert and safe in clinically relevant in vivo toxicity models. Activation of UniCAR-T occurs solely in the presence of the CD123-specific TM (TM123) and upon cross-linkage to CD123 expressing leukemic cells. Specific lysis of leukemic target cell lines and primary patient material is induced in a dose-dependent manner at pico-molar TM123 concentrations. Notably, induction of cytokine release occurs at higher TM doses than on-set of target cell lysis, opening a therapeutic window for clinical application. In vivo efficacy of UniCAR-T re-directed against CD123 was proven in CDX and PDX mouse models. Interestingly, anti-leukemic responses of switch-controllable UniCAR-T were demonstrated to be comparable to conventional CD123-specific CAR-T in vitro at comparable doses. In contrast to conventional CD123 CAR-T, CD123-specific toxicity of TM-activated UniCAR-T towards hematopoietic progenitors was reversible and could be abrogated by withdrawal of TM, allowing for normal development of human hematopoiesis in a xenograft model. In summary, in vitro and in vivo evidence suggests that UniCAR-T-CD123 could provide strong efficacy against CD123 expressing hematological malignancies while providing excellent control and ensuring recovery of normal hematopoiesis post treatment. A phase IA dose-finding study is ongoing. Citation Format: Simon Loff, Jan-Erik Meyer, Johannes Spehr, Julia Riewaldt, Cordula Gründer, Maria Schreiber, Michael Bachmann, Michael Pehl, Gerhard Ehninger, Armin Ehninger, Marc Cartellieri. More than a bridging therapy: Targeting CD123 with rapidly switchable universal CAR-T cells for treatment of acute leukemia [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 4232.