新型间皮素抗体使完整间皮素外畴的晶体学和有效的工程T细胞参与双特异性治疗成为可能

I-Yen Lin, P. Rupert, K. Pilat, Raymond O. Ruff, D. Friend, M. Chan, Midori Clarke, B. Hoffstrom, Jane Carter, S. Meshinchi, A. Bandaranayake, C. Mehlin, James M. Olson, R. Strong, C. Correnti
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引用次数: 0

摘要

间皮素是一种糖化的细胞表面糖蛋白,在正常间皮细胞中表达水平较低,但在许多癌症中过度表达。间皮素与细胞粘附和多种信号通路有关,其确切的生物学功能和整体结构尚不清楚。靶向间皮素的抗体已经被设计成免疫毒素、抗体-药物偶联物、CAR-T细胞或双特异性T细胞接合物作为候选治疗方法,但大多数都面临挑战,包括结合表位对所选方式不是最佳的。在这里,我们描述了一种新型抗间皮素抗体1A12的分离和表征,包括1A12表位与其他抗体(阿玛妥昔单抗,阿奈单抗)的晶体图谱。1A12具有独特的有利特性,包括膜近端表位,以及能够确定完整间皮素外域的结构。我们将1A12结合到两种不同的双特异性T细胞结构中,并结合各种抗cd3共靶向元件作为候选疗法,证明了其体外功能和效力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel mesothelin antibodies enable crystallography of the intact mesothelin ectodomain and engineering of potent, T cell-engaging bispecific therapeutics
Mesothelin is a glypiated, cell-surface glycoprotein expressed at low levels on normal mesothelium but overexpressed by many cancers. Implicated in cell adhesion and multiple signaling pathways, mesothelin’s precise biological function and overall structure remain undefined. Antibodies targeting mesothelin have been engineered into immunotoxins, antibody-drug conjugates, CAR-T cells, or bispecific T cell engagers as candidate therapeutics but most face challenges, including binding epitopes that are not optimal for selected modalities. Here we describe the isolation and characterization of a novel anti-mesothelin antibody, 1A12, including crystallographic mapping of the 1A12 epitope in relation to other antibodies (amatuximab, anetumab). 1A12 possesses uniquely favorable properties, including a membrane-proximal epitope, and enabled structure determination of the complete mesothelin ectodomain. We incorporated 1A12 into two different bispecific T cell engaging architectures with various anti-CD3 co-targeting elements as candidate therapeutics, demonstrating in vitro functionality and potency.
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