Abstract
Abstract The JAX® Onco-Hu® platform utilizes humanized mice engrafted with tumors to enable in vivo investigation of the interactions between the human immune system and human cancer. We have recently shown that humanized NOD-scid IL2Rγnull (NSG™) mice bearing patient-derived xenografts (PDX) allow efficacy studies of checkpoint inhibitors. A major avenue of our investigation is to generate murine humanized models containing a more complete human hematopoietic system and robust innate immune cell population. Next-generation NSG strains include triple transgenic NSG mice (NSG-SGM3) expressing myelosupportive human cytokines KITLG, CSF2, and IL-3. When engrafted with CD34+ human hematopoietic progenitor cells (HPCs) from CD3-depleted umbilical cord blood, NSG-SGM3 mice produce higher myeloid and Treg populations in the circulation as compared to NSG mice over 18 weeks post engraftment. We implanted an array of PDX tumors into humanized NSG-SGM3 mice at 2-3 months post engraftment. Tumors were dissociated and single-cell infiltrates were analyzed by multicolor flow cytometry with a focus on examining overall immune cell infiltration and the levels of hCD33+ myeloid cells. In the PS4050 melanoma PDX model, we found that hCD45+ cell infiltration was significantly increased in hu-NSG-SGM3 mice as compared to hu-NSG mice engrafted with the same HPC donor (3.7% vs. 1% of viable cells). The majority of tumor-infiltrating cells in hu-NSG-SGM3 mice expressed hCD33 (55% of hCD45+) and the percentage was significantly higher than that in hu-NSG mice (13%). hCD3+T cell infiltration level was similar between these two strains (~20% of hCD45+). PS4050-bearing hu-NSG-SGM3 mice treated with the anti-PD-1 antibody pembrolizumab (Keytruda) showed a significant reduction in tumor growth and the PD-1 levels in tumor-infiltrating T cells were greatly reduced by flow cytometry analysis. The overall hCD45+ cell infiltration and the frequencies of hCD4+T, hCD8+T, and hCD33+myeloid cells in tumors remained similar after treatment. Lastly, we observed that the effect of Keytruda on tumor growth reduction in hu-NSG-SGM3 mice is PD-L1-dependent using the human lung carcinoma cell line NCI-H460 depleted of PD-L1 expression by CRISPR. Keytruda treatment significantly reduced mock-transfected NCI-H460 cell growth. By comparison, PD-L1 KO NCI-H460 cells grew more slowly than the mock cells and lost the response to Keytruda. Together, these results indicate that PDX tumor-implanted hu-NSG-SGM3 mice serve as an important platform for understanding human immune system and tumor microenvironment interactions and for preclinical immuno-oncology efficacy studies. Citation Format: Li-Chin Yao, Mingshan Cheng, Ken-Edwin Aryee, Pooja Kumar, Nicole Walsh, Dale Greiner, Leonard Shultz, Edison T. Liu, Michael Brehm, James G. Keck. Patient-derived tumor xenografts in humanized NSG-SGM3 mice: An improved immuno-oncology platform [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 5676.
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