利用 SpyTag/SpyCatcher 系统对抗体和双抗体进行定点荧光标记，用于体内光学成像。

Site-Specific Fluorescent Labeling of Antibodies and Diabodies Using SpyTag/SpyCatcher System for In Vivo Optical Imaging.

机构信息

Department of Pathology and Laboratory Medicine, College of Medicine, University of Saskatchewan, Saskatoon, SK, S7N 5E5, Canada.

Department of Medical Imaging, College of Medicine, University of Saskatchewan, Saskatoon, SK, S7N 5E5, Canada.

出版信息

Mol Imaging Biol. 2019 Feb;21(1):54-66. doi: 10.1007/s11307-018-1222-y.

DOI:10.1007/s11307-018-1222-y

PMID:29948640

Abstract

PURPOSE

Construction of antibody-based, molecular-targeted optical imaging probes requires the labeling of an antibody with a fluorophore. The most common method for doing this involves non-specifically conjugating a fluorophore to an antibody, resulting in poorly defined, heterogeneous imaging probes that often have suboptimal in vivo behavior. We tested a new strategy to site-specific label antibody-based imaging probes using the SpyCatcher/SpyTag protein ligase system.

PROCEDURES

We used the SpyCatcher/SpyTag protein ligase system to site specifically label nimotuzumab, an anti-EGFR antibody and an anti-HER3 diabody. To prevent the labeling from interfering with antigen binding, we introduced the SpyTag and SpyCatcher at the C-terminus of the antibody and diabody, respectively. Expression and binding properties of the C-terminal antibody-SpyTag and diabody-SpyCatcher fusions were similar to the antibody and diabody, indicating that the SpyTag and SpyCatcher fusions were well tolerated at this position. Site-specific labeling of the antibody and diabody was performed in two steps. First, we labeled the SpyCatcher with IRDye800CW-Maleimide and the SpyTag with IRDye800CW-NHS. Second, we conjugated the IRDye800CW-SpyCatcher and the IRDye800CW-SpyTag to the antibody or diabody, respectively. We confirmed the affinity and specificity of the IRDye800CW-labeled imaging probes using biolayer interferometry and flow cytometry. We analyzed the in vivo biodistribution and tumor accumulation of the IRDye800CW-labeled nimotuzumab and anti-HER3 diabody in nude mice bearing xenografts that express EGFR and HER3, respectively.

RESULTS

Expression and binding properties of the C-terminal antibody-SpyTag and diabody-SpyCatcher fusions were similar to the antibody and diabody, indicating that the SpyTag and SpyCatcher fusions were well tolerated at this position. We confirmed the affinity and specificity of the IRDye800CW-labeled imaging probes using biolayer interferometry and flow cytometry. We analyzed the in vivo biodistribution and tumor accumulation of the IRDye800CW-labeled nimotuzumab and anti-HER3 diabody in nude mice bearing xenografts that express EGFR and HER3, respectively. Site-specifically IRDye800CW-labeled imaging probes bound to their immobilized targets, cells expressing these targets, and selectively accumulated in xenografts.

CONCLUSIONS

These results highlight the ease and utility of using the modular SpyTag/SpyCatcher protein ligase system for site-specific fluorescent labeling of protein-based imaging probes. Imaging probes labeled in this manner will be useful for optical imaging applications such as image-guided surgery and have broad application for other imaging modalities.

摘要

目的

构建基于抗体的分子靶向光学成像探针需要将荧光团标记到抗体上。最常见的方法是将荧光团非特异性地缀合到抗体上，导致成像探针定义不明确，异质，并且体内行为通常不理想。我们测试了一种使用 SpyCatcher/SpyTag 蛋白连接酶系统对抗体为基础的成像探针进行特异性标记的新策略。

过程

我们使用 SpyCatcher/SpyTag 蛋白连接酶系统对尼妥珠单抗（一种抗 EGFR 抗体）和抗 HER3 二价抗体进行特异性标记。为了防止标记物干扰抗原结合，我们分别在抗体和二价体的 C 末端引入了 SpyTag 和 SpyCatcher。C 末端抗体 SpyTag 和二价体 SpyCatcher 融合物的表达和结合特性与抗体和二价体相似，表明 SpyTag 和 SpyCatcher 融合物在该位置具有良好的耐受性。抗体和二价体的特异性标记分两步进行。首先，我们用 IRDye800CW-Maleimide 标记 SpyCatcher，用 IRDye800CW-NHS 标记 SpyTag。其次，我们分别将 IRDye800CW-SpyCatcher 和 IRDye800CW-SpyTag 缀合到抗体或二价体上。我们使用生物层干涉测量法和流式细胞术分析了 IRDye800CW 标记的成像探针的亲和力和特异性。我们在分别表达 EGFR 和 HER3 的异种移植裸鼠中分析了 IRDye800CW 标记的尼妥珠单抗和抗 HER3 二价体的体内生物分布和肿瘤积累。

结果

C 末端抗体 SpyTag 和二价体 SpyCatcher 融合物的表达和结合特性与抗体和二价体相似，表明 SpyTag 和 SpyCatcher 融合物在该位置具有良好的耐受性。我们使用生物层干涉测量法和流式细胞术分析了 IRDye800CW 标记的成像探针的亲和力和特异性。我们在分别表达 EGFR 和 HER3 的异种移植裸鼠中分析了 IRDye800CW 标记的尼妥珠单抗和抗 HER3 二价体的体内生物分布和肿瘤积累。特异性的 IRDye800CW 标记的成像探针与它们的固定靶标、表达这些靶标的细胞结合，并选择性地在异种移植物中积累。

结论

这些结果突出了使用模块化 SpyTag/SpyCatcher 蛋白连接酶系统对蛋白质为基础的成像探针进行特异性荧光标记的简便性和实用性。以这种方式标记的成像探针将可用于光学成像应用，如图像引导手术，并具有广泛的其他成像方式的应用。

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利用 SpyTag/SpyCatcher 系统对抗体和双抗体进行定点荧光标记，用于体内光学成像。

Site-Specific Fluorescent Labeling of Antibodies and Diabodies Using SpyTag/SpyCatcher System for In Vivo Optical Imaging.

机构信息

出版信息

PURPOSE

PROCEDURES

RESULTS

CONCLUSIONS

目的

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结果

结论

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