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Oral FPR2/ALX modulators tune myeloid cell activity to ameliorate mucosal inflammation in inflammatory bowel disease

Wen-sheng Yang1, Qing Liu2, Yang Li3, Guan-yi Li4, Shi Lin5, Jie Li3, Lin-yu Li1, Yuan Li5, Xi-lin Ge1, Xiao-zhen Wang5, Wei Wu1, Jun Yan6, Guang-fei Wang1, Qing-tong Zhou3,5,7, Qiang Liu8, Ming-Wei Wang3,5,7, Zhi-ping Li1,9
1 Department of Clinical Pharmacy, Children’s Hospital of Fudan University, National Children’s Medical Center, Shanghai 201102, China
2 The National Center for Drug Screening, Shanghai Institute of Materia Medica, Chinese Academy of Sciences, Shanghai 201203, China
3 Department of Pharmacology, School of Basic Medical Sciences, Fudan University, Shanghai 200032, China
4 School of Pharmaceutical Sciences, Shanghai Jiao Tong University, Shanghai 200240, China
5 Research Center for Deepsea Bioresources, Sanya 572025, China
6 Department of Laboratory Animal Science, Fudan University, Shanghai 200032, China
7 Research Center for Medicinal Structural Biology, National Research Center for Translational Medicine at Shanghai, State Key Laboratory of Medical Genomics, Ruijin Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai 200025, China
8 Department of Neurology, Tianjin Medical University General Hospital, Tianjin 300052, China
9 Department of Clinical Pharmacy, Kunshan Maternity and Children’s Health Care Hospital, Children’s Hospital of Fudan University Kunshan Branch, Kunshan 215300, China
Correspondence to: Ming-Wei Wang: mwwang@simm.ac.cn, Zhi-ping Li: zpli@fudan.edu.cn,
DOI: 10.1038/s41401-025-01525-7
Received: 17 October 2024
Accepted: 25 February 2025
Advance online: 11 March 2025

Abstract

Current treatments of inflammatory bowel disease (IBD) largely depend on anti-inflammatory and immunosuppressive strategies with unacceptable efficacy and adverse events. Resolution or repair agents to treat IBD are not available but potential targets like formyl peptide receptor 2 (FPR2/ALX) may fill the gap. In this study we evaluated the therapeutic effects of two small molecule FPR2/ALX modulators (agonist Quin-C1 and antagonist Quin-C7) against IBD. We first analyzed the cryo-electron microscopy structure of the Quin-C1–FPR2 in complex with heterotrimeric Gi to reveal the structural basis for ligand recognition and FPR2 activation. We then established dextran sulfate sodium (DSS)-induced colitis model in both normal and myeloid depletion mice. We showed that oral administration of Quin-C1 for 7 days ameliorated DSS-induced colitis evidenced by alleviated disease activity indexes, reduced colonic histopathological scores, and corrected cytokine disorders. Meanwhile, we found that oral administration of FPR2/ALX antagonist Quin-C7 exerted therapeutic actions similar to those of Quin-C1. In terms of symptomatic improvements, the ED50 values of Quin-C1 and Quin-C7 were 1.3660 mg/kg and 2.2110 mg/kg, respectively. The underlying mechanisms involved ERK- or ERK/JNK-mediated myeloid cell regulation that limited the development of colitis and inflammation. This is the first demonstration of anti-colitis property caused by synthetic small molecule FPR2/ALX modulators, implying that FPR2/ALX modulation rather than agonism alone ameliorates IBD.

Keywords: IBD; FPR2/ALX; Quin-C1; Quin-C7; neutrophils; macrophages

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