Fast and Site-Specific Covalent Targeting of Proteins by Arylfluorosulfate-Modified Aptamers

化学 共价键 适体 组合化学 非共价相互作用 反应性(心理学) 化学生物学 选择性 共价结合 电泳剂 生物物理学 体外 血浆蛋白结合 动态共价化学 生物化学 指数富集配体系统进化 小分子 半胱氨酸 纳米技术 结合位点 立体化学 结构-活动关系 靶蛋白 生物传感器 表皮生长因子受体 块(置换群论)
作者
Kaining Zhang,Juan Li,Yang Shi,Sining Hou,Zichen Qin,Wenhao Shi,Yiying Zhu,Jingjing Zhang,Ai-Jun Tong,Yu Xiang
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
标识
DOI:10.1021/jacs.5c14374
摘要

Sulfur fluoride exchange (SuFEx) is a versatile click chemistry platform with emerging applications in covalent inhibitor development, among which arylfluorosulfate (AFS) derivatives have shown great promise because of their exclusive selectivity to target proteins. Nevertheless, due to the inherently mild electrophilicity of AFS, the high target specificity often comes at the expense of target reactivity. Here, we challenge this conventional view and show that in vitro selected AFS-modified covalent aptamers (AFS-Aps) can be both highly target selective and reactive. One such AFS-Ap is able to site-specifically modify the extracellular domain (ECD) of human epidermal growth factor receptor 3 (HER3) with a "click" reaction half-life (t1/2) as short as 1 min and covalently inhibit the protein-protein interaction (PPI) of HER3/EGFRs. Another AFS-Ap targeting human vascular endothelial growth factor (VEGF) can also rapidly cross-link VEGF165 and block the PPI of VEGF/VEGFR. The inactivation rate constants (kinact) of these AFS-Aps are one to two orders of magnitude higher than many reported AFS-based covalent molecules. This unexpectedly fast and site-specific covalent targeting requires a precisely organized aptamer-protein binding interface, where the AFS structure, rather than electrophilicity, is the decisive factor. We believe the target reactivity potential of AFS derivatives may have long been underestimated in covalent inhibitor development. AFS-adapted combinatorial techniques are therefore invaluable for discovering covalent inhibitors with both high target reactivity and selectivity.
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