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. 2025 Oct;21(10):1519-1530.
doi: 10.1038/s41589-025-01896-2. Epub 2025 May 15.

Development of an allosteric adhesion GPCR nanobody with therapeutic potential

Yuan Zheng #  1 Dan Jiang #  2   3   4 Yan Lu #  2   3 Chao Zhang #  2   3 Shen-Ming Huang #  3   5 Haocheng Lin #  6   7 Daolai Zhang #  8 Shengchao Guo #  2   3 Jifei Han  3   9 Jun Chen  2   3 Yaxuan He  3   9 Mingxiang Zhang  8 Yanhui Gao  10 Yongyuan Guo  11 Ran Wei  12 Ming Xia  13 Yingying Qin  14 Zhaoqian Liu  15 Fan Yang  3   9   16 Shaohua Ge  17 Fan Yi  4 Xiao Yu  18 Hui Lin  19   20 Peng Xiao  21   22   23   24 Jin-Peng Sun  25   26   27 Shiqing Feng  28   29
Affiliations

Development of an allosteric adhesion GPCR nanobody with therapeutic potential

Yuan Zheng et al. Nat Chem Biol. 2025 Oct.

Abstract

Allosteric modulation of receptor responses to endogenous agonists has therapeutic value, maintaining ligand profiles, reducing side effects and restoring mutant responses. Adhesion G-protein-coupled receptors (aGPCRs), with large N termini, are ideal for allosteric modulator development. We designed a nanobody strategy targeting ADGRG2 N-terminal fragments and got a specific nanobody Nb23-bi, which promoted dehydroepiandrosterone (DHEA)-induced ADGRG2 activation and reversed mutant-induced dysfunctions. By combining structural characterization, crosslinking mass spectrometry, mutational analysis and molecular dynamics simulations, we clarified the allosteric mechanism of how the Nb23-bi modulates conformational changes in the DHEA-binding pocket. Animal studies showed that Nb23-bi promoted the response of DHEA in alleviating testicular inflammation and reversing mutant defects. In summary, we developed an allosteric nanobody of ADGRG2 and gained insights into its functions in reversing disease-associated dysfunctions. Our study may serve as a template for developing allosteric modulators of other aGPCRs for biological and therapeutic purposes.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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