用于实体瘤治疗的优化模块化抗FLAG嵌合抗原受体T细胞

Optimised modular anti-FLAG CAR T cells for solid tumor therapy.

作者信息

Zhang Xiaomeng, Xu Rachel, Zorin Dmitry, Pappas Evan G, Tang Jiawei, Bai Yuchen, Qin Vicky M, von Scheidt Bianca, Huang Ruihong, Kulakowska Weronika, Darido Charbel, Darcy Phillip K, Kershaw Michael H, Slaney Clare Y

机构信息

Cancer Immunology Program Peter MacCallum Cancer Centre Melbourne VIC Australia.

Sir Peter MacCallum Department of Oncology The University of Melbourne Parkville VIC Australia.

出版信息

Clin Transl Immunology. 2025 Aug 21;14(8):e70046. doi: 10.1002/cti2.70046. eCollection 2025.

DOI:10.1002/cti2.70046

PMID:40851786

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12370372/

Abstract

OBJECTIVES

Chimeric antigen receptor (CAR) T cell therapies have transformed the treatment of B cell malignancies and show promise in other diseases, including autoimmune disorders and cardiac injury. However, broader application, particularly in solid tumours, is limited by challenges such as antigen escape and tumour heterogeneity. This study aimed to develop an anti-FLAG CAR capable of engaging FLAG-tagged secondary reagents, providing a flexible and adaptable targeting strategy.

METHODS

We engineered a humanised anti-FLAG CAR to engage FLAG-tagged secondary reagents. The initial construct exhibited tonic signalling, which was addressed through structural optimisation. Therapeutic efficacy was assessed in solid tumour mouse models expressing either FLAG or a FLAG-tagged secondary targeting reagent.

RESULTS

The initial anti-FLAG CAR showed functional activity but exhibited tonic signalling and exhaustion, limiting its therapeutic utility. Structural optimisation significantly reduced exhaustion and improved T cell persistence and functionality. The optimised CAR T cells effectively inhibited tumour growth in models using either FLAG- engineered tumour cells or a FLAG-tagged secondary targeting reagent.

CONCLUSION

Our findings underscore the importance of CAR design in minimising exhaustion and enhancing therapeutic efficacy. This work supports a modular CAR T cell platform with the potential to overcome tumour antigen heterogeneity and immune evasion in solid cancers.

摘要

目的

嵌合抗原受体（CAR）T细胞疗法已经改变了B细胞恶性肿瘤的治疗方式，并在其他疾病（包括自身免疫性疾病和心脏损伤）中显示出前景。然而，其更广泛的应用，尤其是在实体瘤中的应用，受到抗原逃逸和肿瘤异质性等挑战的限制。本研究旨在开发一种能够与带有FLAG标签的二级试剂结合的抗FLAG CAR，提供一种灵活且适应性强的靶向策略。

方法

我们构建了一种人源化抗FLAG CAR，使其能够与带有FLAG标签的二级试剂结合。最初构建的CAR表现出组成性信号传导，通过结构优化解决了这一问题。在表达FLAG或带有FLAG标签的二级靶向试剂的实体瘤小鼠模型中评估治疗效果。

结果

最初的抗FLAG CAR显示出功能活性，但表现出组成性信号传导和耗竭，限制了其治疗效用。结构优化显著减少了耗竭，提高了T细胞的持久性和功能。优化后的CAR T细胞在使用FLAG工程化肿瘤细胞或带有FLAG标签的二级靶向试剂的模型中有效抑制了肿瘤生长。

结论

我们的研究结果强调了CAR设计在最小化耗竭和提高治疗效果方面的重要性。这项工作支持了一个模块化的CAR T细胞平台，该平台有潜力克服实体癌中的肿瘤抗原异质性和免疫逃逸。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d7e/12370372/38fee611c083/CTI2-14-e70046-g006.jpg

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用于实体瘤治疗的优化模块化抗FLAG嵌合抗原受体T细胞

Optimised modular anti-FLAG CAR T cells for solid tumor therapy.

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