Tri-specific tribodies targeting 5T4, CD3, and immune checkpoint drive stronger functional T-cell responses than combinations of antibody therapeutics.

IF 6.1 2区生物学 Q1 CELL BIOLOGY

Cell Death Discovery Pub Date : 2025-02-10 DOI:10.1038/s41420-025-02329-8

Margherita Passariello, Lorenzo Manna, Rosa Rapuano Lembo, Asami Yoshioka, Toshikazu Inoue, Kentaro Kajiwara, Shu-Ichi Hashimoto, Koji Nakamura, Claudia De Lorenzo

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Abstract

One of the most promising cancer immunotherapies is based on bi-specific T-cell engagers (BiTEs) that simultaneously bind with one arm to a tumor-associated antigen on tumor cells and with the other one to CD3 complex on T cells to form a TCR-MHC independent immune synapse. We previously generated four novel tri-specific tribodies made up of a Fab targeting 5T4, an oncofetal tumor antigen expressed on several types of tumors, a scFv targeting CD3 on T cells, and an additional scFv specific for an immune checkpoint (IC), such as PD-1, PD-L1 or LAG-3. To verify their advantages over the combinations of BiTEs (CD3/TAA) with IC inhibitors, recently used to overcome tumor immunosuppressive environment, here we tested their functional properties in comparison with clinically validated mAbs targeting the same ICs, used alone or in combination with a control bi-specific devoid of immunomodulatory scFvs, called 53 P. We found that the novel tri-specific tribodies activated human peripheral blood mononuclear cells more efficiently than clinically validated mAbs (atezolizumab, pembrolizumab, and relatlimab) either used alone or in combination with 53 P, leading to a stronger tumor cytotoxicity and cytokines release. In particular, 53L10 tribody targeting PD-L1 displayed much more potent effects than the combination of 53 P with all the clinically validated mAbs and led to complete tumor regression in vivo, showing much higher efficacy than the combination of 53 P and atezolizumab. We shed light on the molecular basis of this potentiated anti-tumor activity by evidencing that the insertion of the anti-PD-L1 moiety in 53L10 led not only to stronger binding of the tri-specific to tumor cells but also efficiently blocked the effects of increased PD-L1 on tumor cells, induced by IFNγ secretion also due to T-cell activation. These results are important also for the design of novel T-cell engagers targeting other tumor antigens.

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靶向5T4， CD3和免疫检查点的三特异性三体比抗体治疗组合驱动更强的功能性t细胞反应。

最有希望的癌症免疫疗法之一是基于双特异性T细胞接合物（bite），它同时与肿瘤细胞上的肿瘤相关抗原结合，另一只与T细胞上的CD3复合物结合，形成TCR-MHC独立的免疫突触。我们之前生成了四种新的三特异性三体，包括靶向5T4的Fab，在几种类型肿瘤上表达的癌胎肿瘤抗原，靶向T细胞上CD3的scFv，以及针对免疫检查点（IC）（如PD-1， PD-L1或LAG-3）的额外scFv。为了验证它们比bite （CD3/TAA）与IC抑制剂联合使用（最近用于克服肿瘤免疫抑制环境）的优势，我们在这里测试了它们与临床验证的针对相同IC的单克隆抗体的功能特性，单独使用或与缺乏免疫调节的单克隆抗体（称为53p）联合使用。我们发现，与临床验证的单克隆抗体（atezolizumab， pembrolizumab和relatlimumab）单独使用或与53p联合使用相比，新型三特异性三体更有效地激活人外周血单个核细胞，从而导致更强的肿瘤细胞毒性和细胞因子释放。特别是，靶向PD-L1的53L10三体比53 P与所有临床验证的单克隆抗体联合使用显示出更强的效果，并在体内导致肿瘤完全消退，显示出比53 P与atezolizumab联合使用更高的疗效。我们通过证明在53L10中插入抗PD-L1片段不仅导致三特异性与肿瘤细胞的结合更强，而且有效地阻断了由IFNγ分泌和t细胞活化引起的PD-L1对肿瘤细胞的作用，从而阐明了这种增强的抗肿瘤活性的分子基础。这些结果对于设计针对其他肿瘤抗原的新型t细胞接合物也很重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cell Death Discovery Biochemistry, Genetics and Molecular Biology-Cell Biology

CiteScore

8.30

自引率

1.40%

发文量

468

审稿时长

9 weeks

期刊介绍： Cell Death Discovery is a multidisciplinary, international, online-only, open access journal, dedicated to publishing research at the intersection of medicine with biochemistry, pharmacology, immunology, cell biology and cell death, provided it is scientifically sound. The unrestricted access to research findings in Cell Death Discovery will foster a dynamic and highly productive dialogue between basic scientists and clinicians, as well as researchers in industry with a focus on cancer, neurobiology and inflammation research. As an official journal of the Cell Death Differentiation Association (ADMC), Cell Death Discovery will build upon the success of Cell Death & Differentiation and Cell Death & Disease in publishing important peer-reviewed original research, timely reviews and editorial commentary. Cell Death Discovery is committed to increasing the reproducibility of research. To this end, in conjunction with its sister journals Cell Death & Differentiation and Cell Death & Disease, Cell Death Discovery provides a unique forum for scientists as well as clinicians and members of the pharmaceutical and biotechnical industry. It is committed to the rapid publication of high quality original papers that relate to these subjects, together with topical, usually solicited, reviews, editorial correspondence and occasional commentaries on controversial and scientifically informative issues.