Abstract
Abstract With the new waves of anti-tumor immunotherapy development, novel immunotherapies based on NK cells have emerged and advanced rapidly. Considering the inherent mechanisms of NK cells, various strategies are employed in tumor immunotherapy to maximize the efficacy of NK cells, including the following: 1) immune checkpoint inhibitors to relieve NK cell inhibition signals; 2) activation of NK cell activity; 3) targeted antibody therapy for tumor cell killing via antibody-dependent cellular cytotoxicity (ADCC), and 4) cell therapy, such as CAR-NK. Although numerous NK-targeting immune therapeutics or various NK-modulating modalities have been developed or advanced toward clinical trials, there is a lack of clinically relevant preclinical animal models that can be widely accepted for the evaluation of NK-modulating agents, particularly for models that involve functional human NK cells in the test system. This study generated a humanized mouse tumor model system which involves specific reconstitution of functional and durable human NK cells in a murine system, providing a clinically relevant tumor microenvironment. We first engineered a stable monoclonal feeder cell line in vitro to expand NK cells isolated from human peripheral blood mononuclear cells (hPBMCs) using magnetic bead separation. Using this approach, the human primary NK cells were robustly and consistently amplified (up to hundreds of fold) while maintaining their purity and functionality. When compared with primary NK cells using in vitro immune assays including ADCC and FACs, the expanded NK cells showed comparable results as the parental cells. In vivo experimental results indicated that a durable and functional NK reconstitution can be established in tumor-bearing severely immune deficient mice expressing hIL-15. Furthermore, this NK-humanized tumor model system was proven to respond to standard of care (SOC) NK-targeting drugs. In summary, this novel NK humanized in vivo model may represent an effective preclinical tool for assessing NK-modulating drugs, with the hope of facilitating the development process of novel immune therapeutics employing both adaptive and innate immunity. Citation Format: Feng Lu, Weiqun Ding, Guangliang Yang, Yaoqing Jia, Zhaoxiang Wang, Xusheng Yuan, Ming Yin, Zhijian Yang, WenQing Yang. Generation and Application of a Robust Humanized Mouse Tumor Model System for Evaluation of NK-Targeting Therapeutics [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 2 (Late-Breaking, Clinical Trial, and Invited Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(7_Suppl):Abstract nr LB364.
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