通过调节细胞-细胞间的相互作用实现药物控制的 CAR-T 细胞

Leo Scheller, Greta Maria Paola Giordano Attianese, Rocío Castellanos-Rueda, Raphaël B Di Roberto, Markus Barden, Melanie Triboulet, Sailan Shui, Elisabetta Cribioli, Anthony Marchand, Sandrine Georgeon, Hinrich Abken, Sai Reddy, Bruno E. Correia, Melita Irving
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摘要

CAR T 细胞疗法受到靶上、瘤外毒性以及长期抗原暴露导致的细胞衰竭的限制。由小分子可控开关组成的 CAR 可以提高安全性和疗效,但由于缺乏对非免疫抑制性、临床批准的药物有良好药效学反应的非免疫原性蛋白元素,因此受到限制。在这里,我们将人类蛋白-蛋白相互作用(PPI)的合理设计和基于文库的优化结合起来,开发出了由 Venetoclax 控制的药物调节关开关 PPI(DROP)-CARs。DROP-CARs 能使肿瘤靶向 scFv 按剂量释放,从而使 T 细胞与靶肿瘤细胞分离。此外,我们还展示了由不同小分子控制的双 DROP-CAR 概念验证,以及可实现 STAT3 信号传导的逻辑门控合成受体。我们展示了 DROP-CAR T 细胞的体外和体内功能,并得出结论:这种方法有望应用于临床。
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Drug-controlled CAR-T cells through the regulation of cell-cell interactions
CAR T-cell therapy is constrained by on-target, off-tumor toxicities as well as cellular exhaustion due to chronic antigen exposure. CARs comprising small-molecule controlled switches can enhance both safety and therapeutic efficacy but are limited by the scarcity of non-immunogenic protein elements responsive to non-immunosuppressive, clinically approved drugs with favorable pharmacodynamics. Here, we combine rational design and library-based optimization of a protein-protein interaction (PPI) of human origin to develop venetoclax-controlled Drug-Regulated Off-switch PPI (DROP)-CARs. DROP-CARs enable dose-dependent release of the tumor-targeting scFv and consequent T-cell dissociation from the target tumor cell. Additionally, we present proof-of-concept for a dual DROP-CAR controlled by different small molecules, as well as for logic-gated synthetic receptors enabling STAT3 signaling. We demonstrate in vitro and in vivo function of DROP-CAR T cells and conclude that the approach holds promise for clinical application.
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