PO.TB04.06 · 肿瘤生物学

Robust in vivo CAR-T efficacy evaluation in a PBMC-reconstituted NCG-MHC-dKO model with delayed GVHD

海报缩略图:Robust in vivo CAR-T efficacy evaluation in a PBMC-reconstituted NCG-MHC-dKO model with delayed GVHD
编号 2166 展板 17 时间 4/20 09:00–12:00 区域 Section 29 主讲 Hongyan Sun
分会场 In Vivo Models 1: Mouse, Zebrafish, and Alternative Species
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作者与单位

Hongyan Sun, Xiaoliu Yang, Shiying Guo, Yujing Zhang, Huixin Yang, Xiang Gao

GemPharmatech Co., Ltd., Nanjing, China

摘要 Abstract

Background: Humanized mouse models are critical for evaluating in vivo CAR-T therapies, but their utility is limited by rapid onset Graft-versus-Host Disease (GVHD). We employed a novel NCG-MHC-dKO model to mitigate GVHD, enabling prolonged assessment of anti-tumor efficacy for different in vivo CAR-T modalities. Methods: The NCG-MHC-dKO model was reconstituted with human PBMCs, confirming delayed GVHD. Mice bearing Nalm-6 tumors were treated with a single dose of either a lentiviral vector or an LNP formulation delivering a CD19-targeting CAR. Tumor growth was monitored via bioluminescence imaging. Results: The PBMC-NCG-MHC-dKO model demonstrated a significantly extended observation window due to postponed GVHD. In this model, both lentiviral and LNP-based in vivo CAR-T therapies potently suppressed Nalm-6 tumor growth. Functional CAR-T cells generated in vivo were detected and expanded in treated mice. Conclusion: The PBMC-reconstituted NCG-MHC-dKO model provides a robust and durable platform for in vivo CAR-T evaluation by overcoming early GVHD. We successfully validated its utility for both lentiviral and LNP delivery platforms, demonstrating significant and comparable anti-tumor efficacy.
利益披露 Disclosure
H. Sun, None.. X. Yang, None.. S. Guo, None.. Y. Zhang, None.. H. Yang, None.. X. Gao, None.

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