Abstract 1322: A cryopreserved allogeneic anti-BCMA CAR-NK cellular therapy exhibits both innate and CAR-mediated MM cell killing in vitro and in vivo

Abstract

Abstract Introduction Multiple myeloma (MM) is the second most prevalent hematopoietic malignancy with an overall 5-year survival rate of 58%. B cell maturation antigen (BCMA) is selectively expressed on normal and malignant plasma cells, making it an attractive MM target. Anti-BCMA chimeric antigen receptor (CAR) T cell therapy and T cell engagers have shown promise as treatment options for certain MM patients; however, potential toxicities associated with these anti-BCMA therapies, such as cytokine release syndrome (CRS), have limited broader utilization. Much like T cells, natural killer (NK) cells are cytolytic and have demonstrated an innate capacity to reduce tumor burden while exhibiting a more favorable safety profile in clinical testing. To that end, we developed a cryopreserved allogeneic cell therapy comprised of genetically modified human umbilical cord blood-derived (CB) NK cells transduced with a gammaretroviral vector, which incorporates genes for an anti-BCMA CAR and soluble human interleukin-15 (sIL-15). Referred to hereafter as anti-BCMA CAR-NK, it exhibits both innate NK- and CAR-mediated killing in vitro and robust in vivo activity against established MM tumors. Methods CBNK cells were isolated from donor cord blood units, propagated using feeder cells, transduced with a gammaretroviral vector to express an anti-BCMA CAR and soluble human IL-15, and propagated further before harvest and cryopreservation. Donor-equivalent untransduced (UTD) NK cells were generated via the same process but without the transduction step. Cryopreserved anti-BCMA CAR-NK and UTD NK cells were used for in vitro studies, including short-term killing, as well as for evaluation of activity against established MM tumors in vivo using the MM.1S-Luc4 model. Results The anti-BCMA CAR was successfully expressed across all batches of anti-BCMA CAR-NK generated. Results from an in vitro cytotoxicity assay indicated that anti-BCMA CAR-NK kills BCMA expressing MM.1S-Luc4 tumor cells and secretes IFNγ, TNFα, and granzyme B at greater amounts compared to donor-equivalent UTD NK. Anti-BCMA CAR-NK and UTD NK cells also demonstrated equivalent cytotoxicity towards BCMA non-expressing cell lines, JJN3-Luc BCMA KO and NCI-H520, in an effector:target cancer cell dependent manner, highlighting the potential for treatment with anti-BCMA CAR-NK post-prior BCMA therapy. In in vivo studies, anti-BCMA CAR-NK exhibited robust anti-tumor activity in an MM.1S-Luc4 NSG mouse xenograft model, with no signs of anti-BCMA CAR-NK related body weight loss. Conclusion A cryopreserved allogeneic anti-BCMA CAR-NK cellular therapy exhibits both innate and CAR-mediated killing in vitro and robust in vivo activity in MM tumor models. Preclinical data supports future clinical evaluation in relapsed/refractory MM patients who have received prior BCMA therapy and IND enabling studies are ongoing. Citation Format: LeeAnn Talarico, Christina Wong, Chunyan Pang, Taylor Hickman, Chenqi Hu, Amy Shaw, Emily Wisniewski, Shao-Chiang (Michael) Lai, Pranjal Sharma, Shaun Moore, Luan Nguyen, Kayla Rhuda, Saurin Patel, Paul Lin, Rafet Basar, Shawn Cogan, Kat Sofjan, Arun Ramamurthy, Aaron Handler, Kathryn Fraser, Yana Wang, Katayoun Rezvani, Michael D. Curley. A cryopreserved allogeneic anti-BCMA CAR-NK cellular therapy exhibits both innate and CAR-mediated MM cell killing in vitro and in vivo [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 1322.