De novo design of GPCR exoframe modulators
Cheng Shizhuo, Guo Jia, Zhou Yun-li, Luo Xumei, Zhang Gufang, Zhang Ya-zhi, Yang Yixin, Xie Jiannan, Xu Ping, Shen Dan-dan, Zang Shaokun, Yang Huicui, Zhen Xuechu, Zhang Min, Zhang Yan
Journal:NATURE
IF:56.1
DOI:10.1038/s41586-025-09957-1
PMID:
Published:2026-02-16
research field:计算生物学蛋白质工程结构生物学分子药理学药物发现
Abstract
G-protein-coupled receptors (GPCRs) are important therapeutic targets and have been targeted mainly through their orthosteric site, where the endogenous agonist binds 1 . However, allosteric modulation has emerged as a promising and innovative strategy in the realm of GPCR drug discovery 1 . Here, drawing inspiration from the natural regulation of GPCRs by transmembrane proteins, we have developed GPCR exoframe modulators (GEMs), de novo designed proteins that specifically target the transmembrane domain of GPCRs. Utilizing a hallucination-like design approach, we crafted GEMs with three strategic structural prompts to achieve the desired binding modes. We selected the dopamine D 1 receptor as a prototypical model and systematically investigated four GEMs. Structural studies and functional assays revealed that these GEMs bind to the transmembrane domains and function as diverse allosteric modulators, including agonist-positive allosteric modulator, negative allosteric modulator and biased allosteric modulator. The ago-PAM GEM restores the activity of various D 1 receptor loss-of-function mutants, suggesting a promising therapeutic target for GPCR-related disorders. Our work introduces GEMs that target the transmembrane domain as potent agents for allosteric GPCR modulation and highlights the potential of deep learning-based approaches in the design of function-oriented membrane proteins.
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