Abstract 1640: Enhanced development of functional human innate immune cells in a novel FLT3nullNSG mouse strain expressing human FLT3L

Abstract Humanized mice are being applied widely to study human immune system homeostasis, function, and as a testing platform for cancer immunotherapies. A major limitation for many humanized mouse models is the lack of functional and mature human innate immune cells, which are critical for effective human immune system-tumor interactions. Previous studies have demonstrated that delivery of human FLT3L into immunodeficient mice that lack mouse FLT3, promotes the development of human innate immune cell subsets following engraftment with human hematopoietic stem cells (HSC). Here we describe a NOD-scid IL2rgnull (NSG) mouse that lacks the expression of mouse FLT3 and expresses human FLT3L transgenically (NSG-mFLT3nullTg (HuFLT3L) or NSG-FLT3L. In these studies, NSG-FLT3L and NSG mice were engrafted with human umbilical cord blood (UCB) CD34+ HSC and compared for human immune system development and function. HSC-engrafted NSG-FLT3L and NSG mice show similar levels of total human CD45+ cells in blood over the course of 18 weeks post-engraftment. However, HSC-engrafted NSG-FLT3L mice show significantly higher levels of human CD141+ and CD1c+ DC subsets, CD123+ pDC, CD14+ monocytes, CD56+ NK cells and CD3+ T cells in the blood as compared to NSG mice. CD34-FLT3L mice also show increased levels of human immune cell infiltration into the gut mucosa. CD56+ NK cells and CD3+ T cells from HSC-engrafted NSG-FLT3L mice express granzyme A and granzyme B, indicating cytotoxic activity. Following treatment of HSC-engrafted NSG-FLT3L mice with LPS, heightened levels of human cytokines were detected in serum samples, confirming innate immune system function. The growth kinetics of tumor cells from a triple negative breast cancer cell line MDA-MB-231 and a lung PDX model LG1306 in HSC-engrafted NSG-FLT3L mice are work in progress and will be compared with HSG-engrafted NSG mice. Overall these results demonstrate that the NSG-FLT3L model supports enhanced development of functional, human innate immune cells and is a novel tool to study human immuno-oncology. Citation Format: Li-Chin Yao, Shantashri Vaidya, Pali Kaur, James G. Keck, Leonard D. Shultz, Dale L. Greiner, MIchael A. Brehm. Enhanced development of functional human innate immune cells in a novel FLT3nullNSG mouse strain expressing human FLT3L [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 1640.