Direct observation of small molecule activator binding to single PR65 protein.

npj Biosensing Pub Date : 2025-01-01 Epub Date: 2025-01-16 DOI:10.1038/s44328-024-00018-7

Annie Yang-Schulz, Maria Zacharopoulou, Sema Zeynep Yilmaz, Anupam Banerjee, Satyaki Saha, Daniel Nietlispach, Michael Ohlmeyer, Mert Gur, Laura S Itzhaki, Ivet Bahar, Reuven Gordon

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Abstract

The reactivation of heterotrimeric protein phosphatase 2A (PP2A) through small molecule activators is of interest to therapeutic intervention due to its dysregulation, which is linked to chronic conditions. This study focuses on the PP2A scaffold subunit PR65 and a small molecule activator, ATUX-8385, designed to bind directly to this subunit. Using a label-free single-molecule approach with nanoaperture optical tweezers (NOT), we quantify its binding, obtaining a dissociation constant of 13.6 ± 2.5 μM, consistent with ensemble fluorescence anisotropy results but challenging to achieve with other methods due to low affinity. Single-molecule NOT measurements reveal that binding increases optical scattering, indicating PR65 elongation. This interpretation is supported by all-atom molecular dynamics simulations showing PR65 adopts more extended conformations upon binding. This work highlights NOT's utility in quantifying binding kinetics and structural impact, offering insights valuable for drug discovery.

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直接观察小分子激活剂与单个PR65蛋白的结合。

异三聚体蛋白磷酸酶2A （PP2A）通过小分子激活剂的再激活是治疗干预的兴趣，因为它的失调与慢性疾病有关。本研究的重点是PP2A支架亚基PR65和设计用于直接结合该亚基的小分子激活剂ATUX-8385。利用纳米孔径光镊（NOT）的无标记单分子方法，我们量化了它的结合，得到了13.6±2.5 μM的解离常数，与集合荧光各向异性结果一致，但由于亲和力低，其他方法难以实现。单分子NOT测量表明，结合增加了光学散射，表明PR65伸长。这一解释得到了全原子分子动力学模拟的支持，显示PR65在结合时采用了更广泛的构象。这项工作突出了NOT在定量结合动力学和结构影响方面的效用，为药物发现提供了有价值的见解。

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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npj Biosensing

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