Patrick C. Freitag, Jonas Kolibius, Ronja Wieboldt, Remi Weber, K. Patricia Hartmann, Merel van Gogh, Dominik Brücher, Heinz Läubli, Andreas Plückthun
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引用次数: 0
Abstract
Bispecific T cell engagers are a promising class of therapeutic proteins for cancer therapy. Their potency and small size often come with systemic toxicity and short half-life, making intravenous administration cumbersome. These limitations can be overcome by tumor-specific expression, allowing high local accumulation while reducing systemic concentrations. However, encoding T cell engagers in viral or non-viral vectors and expressing them ablates all forms of quality control performed during recombinant protein production. It is therefore vital to design constructs that feature minimal domain mispairing, and increased homogeneity of the therapeutic product. Here, we report a T cell engager architecture specifically designed for vector-mediated immunotherapy. It is based on a fusion of a designed ankyrin repeat protein (DARPin) to a CD3-targeting single-chain antibody fragment, termed DATE (RPin-fused cell ngager). The DATE induces potent T cell-mediated killing of HER2 cancer cells, both as recombinantly produced therapeutic protein and as expressed payload from a HER2-retargeted high-capacity adenoviral vector (HC-AdV). We report remarkable tumor remission, DATE accumulation, and T cell infiltration through expression mediated by a HER2-retargeted HC-AdV . Our results support further investigations and developments of DATEs as payloads for vector-mediated immunotherapy.
双特异性 T 细胞吞噬因子是一类很有前景的癌症治疗蛋白。双特异性 T 细胞吸引子的效力强、体积小,但往往具有全身毒性和半衰期短的特点,因此静脉注射非常麻烦。肿瘤特异性表达可以克服这些限制,在降低全身浓度的同时实现高局部蓄积。然而,在病毒或非病毒载体中编码 T 细胞吞噬因子并表达它们会破坏重组蛋白生产过程中所有形式的质量控制。因此,设计出具有最小结构域错配和增加治疗产品均一性特点的构建体至关重要。在此,我们报告了一种专为载体介导的免疫疗法而设计的 T 细胞吞噬结构。它基于设计的ankyrin重复蛋白(DARPin)与CD3靶向单链抗体片段的融合,被称为DATE(RPin-fused cell ngager)。DATE 可诱导 T 细胞介导的对 HER2 癌细胞的强效杀伤,既可作为重组生产的治疗蛋白,也可作为 HER2 重定向高容量腺病毒载体(HC-AdV)表达的有效载荷。我们报告了通过 HER2 重定向 HC-AdV 的表达介导的显著的肿瘤缓解、DATE 积累和 T 细胞浸润。我们的研究结果支持将 DATE 作为载体介导的免疫疗法的有效载荷进行进一步的研究和开发。
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