Abstract Current cell and gene therapy medicines for oncology have reshaped how cancer is treated. Chimeric antigen receptor (CAR)-T cells have demonstrated that cell therapy can achieve durable remissions in hematologic malignancies. CAR-T cell therapies, however, have limited efficacy in solid tumors and are associated with severe toxicity, highlighting the need for safer and more efficacious novel cell therapies. With their intrinsic tumor killing capacity, few treatment-related toxicities, and the ability to be given to patients off-the shelf, natural killer (NK) cells are an attractive alternative therapy option to CAR-T cells. While most NK cell therapies are produced from healthy donor cells, deriving NK cells from induced pluripotent stem cells (iPSCs) has the unique advantage that a clone with any desired edits can be generated. We aim to leverage our iPSC platform in combination with our proprietary gene editing technologies to create highly differentiated off-the-shelf treatments for solid tumors. Using our proprietary engineered AsCas12a, we generated double knocked-in (DKI) iPSC clones in which a bicistronic cargo encoding CD16 and a membrane-bound IL-15 (mbIL-15) was knocked into the GAPDH locus to increase the effector function and persistence of iNKs. Constitutive surface expression of CD16 and mbIL-15 by the DKI iNKs was demonstrated. DKI iNKs showed significantly increased natural and antibody dependent cellular cytotoxicity when compared to wild type (WT) iNKs in a SKOV3 tumor spheroid assay in vitro. Furthermore, in the absence of exogeneous cytokines, DKI iNKs persistence in vitro was dramatically improved over WT iNKs. The anti-tumor efficacy of the DKI iNKs in vivo was evaluated using a SKOV3 ovarian cancer model. Tumor bearing mice were treated with WT or DKI iNKs intraperitoneally in combination with trastuzumab or treated with trastuzumab alone. No exogenous cytokines were administered. DKI iNKs combined with a single dose or multiple doses of trastuzumab exerted greater tumor control compared to WT iNKs with trastuzumab, or trastuzumab alone. A single dose of DKI iNKs combined with three doses of trastuzumab induced tumor clearance in 6 out of 8 mice and significantly prolonged survival. Importantly, DKI iNKs were detected in the peritoneum of the treated animals for greater than 3 months, demonstrating that the mbIL-15 maintained iNK survival for a prolonged period of time in the absence of exogeneous cytokine support. In summary, knocking-in CD16 and mbIL-15 to the GAPDH locus of iPSCs dramatically increased the persistence of the DKI iNKs which exhibited robust anti-tumor activities in a solid tumor mouse model. These data demonstrate that our platform enables the development of off-the-shelf iNK cell medicines that may be highly effective for treating solid tumors. Citation Format: Alexander G. Allen, Samia Q. Khan, Kaitlyn M. Izzo, Mrunali Jagdale, Alexandra Gerew, Nadire R. Cochran, Jared Getgano, Stephen Sherman, Laura Blaha, Mark Shearman, Kate Zhang, Kai-Hsin Chang. AsCas12a gene-edited iPSC-derived NK cells constitutively expressing CD16 and membrane-bound IL-15 demonstrate prolonged persistence and robust anti-tumor activities in a solid tumor mouse model [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 562.
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