效应器
可扩展性
工具箱
间隙
计算机科学
计算生物学
分布式计算
光遗传学
双特异性抗体
治疗方式
连接器
化学
HEK 293细胞
比例(比率)
计算机体系结构
模式
生物
纳米技术
灵活性(工程)
信号转导
钥匙(锁)
内化
细胞信号
作者
Endri Karaj,Varsha Venkatarangan,Shaimaa H. Sindi,Surached Siriwongsup,C. Lee,Rajaiah Pergu,Vedagopuram Sreekanth,Karishma Kailass,Kien Tran,Prashant K. Singh,Sameek Singh,Junya Kawai,Jeffrey E. Fung,Mahilet Tefera,Rohil Dhaliwal,Santosh Kumar Chaudhary,April Keyes,Ananthan Sadagopan,Lisa M. Boatner,Neel H. Shah
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2026-02-21
被引量:1
标识
DOI:10.64898/2026.02.20.706349
摘要
Abstract Chimeric molecules, which bring together an effector enzyme and a protein-of-interest (POI) to add/remove post-translational modifications (PTMs), are furnishing transformative modalities (e.g., PROTACs). However, these chimeras’ scalability is limited as they employ rare, non-inhibitory binders of effectors. We report GRoup-transfer chimeras for Inducing Proximity (GRIPs) that employ abundantly available effectors’ inhibitors to append POI binder on the effector using group-transfer handles. To demonstrate scalability, we develop 6 GRIPs classes for 3 PTMs utilizing diverse inhibitor, spanning 16 effector‒POI pairs. Furthermore, we report a toolbox of 42 tunable group-transfer handles for Cys/Lys residues and ∼5000 inhibitor‒residue pairs for diverse effectors. Using global proteomics, we confirm the specificity for group transfer and PTM editing. GRIPs endowed new functionalities to POI drugs, including preventing rebound signaling upon drug withdrawal, a more potent/persistent inhibition, and inhibitor-induced pathway activation in 4 fully-endogenous systems. In diverse hemi -endogenous systems (tagged POI), GRIPs induced condensate formation with reduced off-targets, cleared pathogenic PTMs, and initiated PTM crosstalk. Overall, GRIPs provide a scalable and versatile platform for PTM editing. Graphical abstract
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