PO.TB10.18 · 肿瘤生物学

CAR-Tmigration andcytotoxicity in atumor-vasculature-on-chipmodel

海报缩略图:CAR-Tmigration andcytotoxicity in atumor-vasculature-on-chipmodel
编号 4929 展板 17 时间 4/21 09:00–12:00 区域 Section 30 主讲 Chiwan Chiang
分会场 Novel Experimental Platforms and Causal Inference
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作者与单位

Luuk de Haan, Aleksandra Olczyk, Thomas Olivier, Joris Wesselius, Will Allen, Johnny Suiker, Todd Burton, Lenie van den Broek, Karla Queiroz

MIMETAS B.V, Oegstgeest, Netherlands

摘要 Abstract

CAR-T cell therapies have shown remarkable success in hematologic malignancies; however, their efficacy in solid tumors remains limited. This is primarily due to the complex tumor microenvironment (TME), which creates immunosuppressive conditions and physical barriers that hinder CAR-T infiltration and function. Current in vitro models fail to replicate these critical parameters, limiting the ability to predict clinical performance. To address this gap, we developed a tumor-vasculature-on-chip model using the OrganoPlate platform, enabling perfusion of CAR-T cells through a functional endothelial vessel adjacent to a tumor compartment. This setup allows assessment of key processes such as extravasation, migration, and killing kinetics in a physiologically relevant context. EpCAM-positive HT-29 colorectal cancer cells and EpCAM-negative A375 melanoma cells were co-cultured with an endothelial tubule to evaluate EpCAM-targeting CAR-T cells. CAR-T cells selectively killed EpCAM-positive HT-29 cells while sparing EpCAM-negative A375 cells, demonstrating antigen-specific activity. Killing was dose-dependent, and endothelial integrity was maintained at most CAR-T concentrations but disrupted at the highest doses, revealing a therapeutic window. We further compared CAR-T constructs with different co-stimulatory domains (CD28 vs. 4-1BB) and observed reduced potency with 4-1BB. Addition of IL-2 enhanced CAR-T cytotoxicity. Cytokine profiling showed increased IFN-gamma, TNF-alpha, and IL-6 over time, and morphometric analysis confirmed endothelial disruption at high effector-to-target ratios. The platform was also used to study combination strategies, including immune checkpoint inhibitors and temozolomide. This modular, scalable organ-on-chip system enables phenotypic and functional characterization of CAR-T cells under relevant conditions.
利益披露 Disclosure
L. de Haan, MIMETAS B.V Employment. A. Olczyk, MIMETAS B.V Employment. T. Olivier, MIMETAS B.V Employment. J. Wesselius, MIMETAS B.V Employment. W. Allen, MIMETAS B.V Employment. J. Suiker, MIMETAS B.V Employment. T. Burton, MIMETAS B.V Employment. L. van den Broek, MIMETAS B.V Employment.

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