Optimization of anti-TIM3 chimeric antigen receptor with CD8α spacer and TNFR-based costimulation for enhanced efficacy in AML therapy.

Kristine Cate S Pe, Sirirut Jewmoung, Sm Ali Hosseini Rad, Natthida Chantarat, Chantiya Chanswangphuwana, Haruko Tashiro, Koramit Suppipat, Supannikar Tawinwung
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Abstract

CAR T cell therapy for AML remains limited due to the lack of a proper target without on-target off-tumor toxicity. TIM3 is a promising target due to its high expression on AML cells and absence in most normal hematopoietic cells. Previous reports have shown that each CAR component impacts CAR functionality. Here, we optimized TIM-3 targeting CAR T cells for AML therapy. We generated CARs targeting TIM3 with two different non-signaling domains: an IgG2-CH3 spacer with CD28 transmembrane domain (CH3/CD28) and a CD8α spacer with CD8α transmembrane domain (CD8/CD8), and evaluated their characteristics and function. Incorporating the non-signaling CH3/CD28 domain resulted in unstable CAR expression in anti-TIM3 CAR T cells, leading to lower surface CAR expression over time and reduced cytotoxic function compared to anti-TIM3 CARs with the CD8/CD8 domain. Both types of anti-TIM3 CAR T cells transiently exhibited fratricide, which subsided overtime, and both CAR T cells achieved substantial T cell expansion. To further optimize the design, we explored the effects of different costimulatory domains. Compared with CD28 costimulation, 4-1BB and CD27 combined with a CD8/CD8 non-signaling domain showed higher cytokine secretion, superior antitumor activity, and enhanced T-cell persistence after repeated antigen exposure. These findings emphasize the impact of the optimal design of CAR constructs that provide efficient function. In the context of anti-TIM3 CAR T cells, using a CD8α spacer and transmembrane domain with TNFR-based costimulation is a promising CAR design to improve anti-TIM3 CAR T cell function for AML therapy.

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优化带有 CD8α spacer 和基于 TNFR 的成本刺激的抗 TIM3 嵌合抗原受体,提高急性髓细胞白血病治疗的疗效。
CAR T 细胞疗法治疗急性髓细胞性白血病仍然受到限制,原因是缺乏合适的靶点,且没有靶点外肿瘤毒性。TIM3 在急性髓细胞白血病细胞中高表达,而在大多数正常造血细胞中不表达,因此是一个很有希望的靶点。以前的报告显示,每个 CAR 成分都会影响 CAR 的功能。在这里,我们优化了治疗急性髓细胞性白血病的 TIM-3 靶向 CAR T 细胞。我们生成了带有两种不同非信号结构域的TIM3靶向CAR:带有CD28跨膜结构域(CH3/CD28)的IgG2-CH3间隔物和带有CD8α跨膜结构域(CD8/CD8)的CD8α间隔物,并评估了它们的特性和功能。与带有CD8/CD8结构域的抗TIM3 CAR相比,加入非信号CH3/CD28结构域会导致抗TIM3 CAR T细胞中的CAR表达不稳定,随着时间的推移表面CAR表达量降低,细胞毒性功能减弱。两种类型的抗 TIM3 CAR T 细胞都会短暂表现出自相残杀的现象,但随着时间的推移这种现象会逐渐消失,而且两种 CAR T 细胞都实现了大量的 T 细胞扩增。为了进一步优化设计,我们探索了不同成本刺激结构域的效果。与 CD28 costimulation 相比,4-1BB 和 CD27 与 CD8/CD8 非信号结构域结合显示出更高的细胞因子分泌量、更优越的抗肿瘤活性以及重复抗原暴露后更强的 T 细胞持久性。这些发现强调了优化设计 CAR 构建物以提供高效功能的重要性。就抗TIM3 CAR T细胞而言,使用CD8α间隔和跨膜结构域以及基于TNFR的成本刺激是一种很有前景的CAR设计,可提高抗TIM3 CAR T细胞的功能,用于急性髓细胞性白血病的治疗。
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