Yingjie Sun, Changheng Li, Xiaofei Deng, Wenjie Li, Xiaoyi Deng, Weiqi Ge, Miaoyuan Shi, Ying Guo, Yanxun V Yu, Hai-Bing Zhou, Youngnam N Jin
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引用次数: 0
Abstract
Identifying target proteins for bioactive molecules is essential for understanding their mechanisms, developing improved derivatives, and minimizing off-target effects. Despite advances in target identification (target-ID) technologies, significant challenges remain, impeding drug development. Most target-ID methods use cell lysates, but maintaining an intact cellular context is vital for capturing specific drug-protein interactions, such as those with transient protein complexes and membrane-associated proteins. To address these limitations, we developed POST-IT (Pup-On-target for Small molecule Target Identification Technology), a non-diffusive proximity tagging system for live cells, orthogonal to the eukaryotic system. POST-IT utilizes an engineered fusion of proteasomal accessory factor A and HaloTag to transfer Pup to proximal proteins upon directly binding to the small molecule. After significant optimization to eliminate self-pupylation and polypupylation, minimize depupylation, and optimize chemical linkers, POST-IT successfully identified known targets and discovered a new binder, SEPHS2, for dasatinib, and VPS37C as a new target for hydroxychloroquine, enhancing our understanding these drugs' mechanisms of action. Furthermore, we demonstrated the application of POST-IT in live zebrafish embryos, highlighting its potential for broad biological research and drug development.
识别生物活性分子的靶蛋白对于理解其机制、开发改进的衍生物和减少脱靶效应至关重要。尽管靶标识别(target- id)技术取得了进步,但仍存在重大挑战,阻碍了药物的开发。大多数靶向识别方法使用细胞裂解物,但保持完整的细胞环境对于捕获特定的药物-蛋白质相互作用至关重要,例如瞬态蛋白复合物和膜相关蛋白。为了解决这些限制,我们开发了POST-IT (Pup-On-target for Small molecule Target Identification Technology),这是一种针对活细胞的非扩散接近标记系统,与真核系统正交。POST-IT利用蛋白酶体辅助因子A和HaloTag的工程融合,将Pup直接与小分子结合,转移到近端蛋白上。POST-IT在对消除自聚和多聚、减少副聚和优化化学连接进行了大量优化后,成功地鉴定出了已知靶点,并发现了达沙替尼的新结合物SEPHS2和羟氯喹的新靶点VPS37C,加深了我们对这些药物作用机制的了解。此外,我们展示了POST-IT在活斑马鱼胚胎中的应用,强调了其在广泛的生物学研究和药物开发方面的潜力。
期刊介绍:
eLife is a distinguished, not-for-profit, peer-reviewed open access scientific journal that specializes in the fields of biomedical and life sciences. eLife is known for its selective publication process, which includes a variety of article types such as:
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