Next-generation cell-penetrating antibodies for tumor targeting and RAD51 inhibition.

Q2 Medicine

Oncotarget Pub Date : 2024-10-01 DOI:10.18632/oncotarget.28651

Madison Rackear, Elias Quijano, Zaira Ianniello, Daniel A Colón-Ríos, Adam Krysztofiak, Rashed Abdullah, Yanfeng Liu, Faye A Rogers, Dale L Ludwig, Rohini Dwivedi, Franziska Bleichert, Peter M Glazer

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Abstract

Monoclonal antibody therapies for cancer have demonstrated extraordinary clinical success in recent years. However, these strategies are thus far mostly limited to specific cell surface antigens, even though many disease targets are found intracellularly. Here we report studies on the humanization of a full-length, nucleic acid binding, monoclonal lupus-derived autoantibody, 3E10, which exhibits a novel mechanism of cell penetration and tumor specific targeting. Comparing humanized variants of 3E10, we demonstrate that cell uptake depends on the nucleoside transporter ENT2, and that faster cell uptake and superior in vivo tumor targeting are associated with higher affinity nucleic acid binding. We show that one human variant retains the ability of the parental 3E10 to bind RAD51, serving as a synthetically lethal inhibitor of homology-directed repair in vitro. These results provide the basis for the rational design of a novel antibody platform for therapeutic tumor targeting with high specificity following systemic administration.

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用于肿瘤靶向和 RAD51 抑制的新一代细胞穿透抗体。

近年来，治疗癌症的单克隆抗体疗法在临床上取得了巨大成功。然而，迄今为止，这些策略大多局限于特定的细胞表面抗原，尽管许多疾病靶点存在于细胞内。在此，我们报告了对一种全长、核酸结合型单克隆狼疮自身抗体 3E10 的人源化研究，该抗体具有新颖的细胞穿透和肿瘤特异性靶向机制。通过比较 3E10 的人源化变体，我们证明细胞摄取取决于核苷转运体 ENT2，而细胞摄取速度更快、体内肿瘤靶向性更强与核酸结合亲和力更高有关。我们发现，一种人类变体保留了亲本 3E10 结合 RAD51 的能力，可作为体外同源定向修复的合成致死抑制剂。这些结果为合理设计一种新型抗体平台提供了基础，该平台可在全身给药后具有高特异性地靶向治疗肿瘤。

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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