Abstract 2563: Macrophage Toll-like receptor-chimeric antigen receptors (MOTO-CARs) as a novel adoptive cell therapy for the treatment of solid malignancies

Recent clinical trials using chimeric antigen receptors (CAR) T cells have demonstrated tremendous success in eradicating hematologic malignancies. Notwithstanding the excitement generated by CAR T cell therapy, its clinical efficacy has not been effectively translated to the context of solid tumors; the physical barriers of solid malignancies and the immunosuppressive conditions at the tumor site hinder the efficacy of CAR T cells. Macrophages have the ability to infiltrate almost every tissue and frequently are recruited into tumors. Therefore, macrophages are an attractive vehicle for CAR therapy and could help solve current challenges that CAR T cells face in the treatment of solid tumors. MOTO-CAR cells are monocyte-derived human macrophages that are genetically modified by a lentiviral or adenoviral approach to express a synthetic tumor-targeting receptor and to secrete cytokines, ligands or chemokine receptors. MOTO-CAR receptors are composed of a single-chain variable fragment (ScFv) that binds to a specific tumor target, a hinge to link it to a transmembrane domain, and an engineered Toll/Interleukin-1 receptor (TIR) signaling domain. When the ScFv binds to the tumor cell via its tumor target, an activation signal is transmitted. Myd88 dependent and independent signaling cascades are elicited, activating the macrophage and polarizing it towards a proinflammatory phenotype to eliminate cancer cells in a selective way. We previously reported the expression of Thymidine Kinase 1 (TK1) on the cell membrane of the non-small cell lung carcinoma NCI-H460 and A549 cell lines. The in vitro function of TK1 MOTO-CAR cells was evaluated against these cancer cell lines, using GFP-based phagocytosis and killing assays. Additionally, cell migration and interaction was recorded using time-lapse video with a confocal microscope. Upon co-culturing, with its target TK1 specific MOTO-CARs showed a nearly 4-fold increase in killing activity when compared with the controls (p<0.01). MOTO-CAR cells were produced through a lentiviral approach with around 30% of the cells expressing MOTO-CARs and with an adenoviral approach using the Ad5f35 vector with an efficiency of 70-80% of cells being transduced. Furthermore, after transduction MOTO-CAR cells showed a consistent M1 phenotype expressing high levels of CD14, CD80, CD206 and low levels of CD163. Time-lapse videos showed migration and clustering of MOTO-CAR cells around H460 GFP + cells. Moreover, cell death was observed upon contact of MOTO-CAR cells with target cells as well as phagocytic activity. In vivo testing using an orthotopic NOD scid gamma mice model is in progress. Our preclinical data show evidence that human macrophages are a suitable vehicle for CAR therapy and have the potential to successfully extrapolate the clinical efficacy of CAR therapy to the context of solid tumors. Citation Format: Edwin J. Velazquez, John E. Lattin, Taylor D. Brindley, Zachary Z. Reinstein, Roger Chu, Lu Liu, Evita G. Weagel, Michelle H. Townsend, Kiara V. Whitley, Eliza L. Lawrence, Brandon T. Garcia, Scott Weber, Richard A. Robison, Kim L. O'Neill. Macrophage Toll-like receptor-chimeric antigen receptors (MOTO-CARs) as a novel adoptive cell therapy for the treatment of solid malignancies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 2563.