Biased receptor signalling and intracellular trafficking profiles of structurally distinct formylpeptide receptor 2 agonists

IF 6.8 2区医学 Q1 PHARMACOLOGY & PHARMACY British Journal of Pharmacology Pub Date : 2024-08-18 DOI:10.1111/bph.17310

Cheng Peng, Elizabeth A. Vecchio, Anh T. N. Nguyen, Mia De Seram, Ruby Tang, Peter Keov, Owen L. Woodman, Yung-Chih Chen, Jonathan Baell, Lauren T. May, Peishen Zhao, Rebecca H. Ritchie, Cheng Xue Qin

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Abstract

Background

There is increasing interest in developing FPR2 agonists (compound 43, ACT-389949 and BMS-986235) as potential pro-resolving therapeutics, with ACT-389949 and BMS-986235 having entered phase I clinical development. FPR2 activation leads to diverse downstream outputs. ACT-389949 was observed to cause rapid tachyphylaxis, while BMS-986235 and compound 43 induced cardioprotective effects in preclinical models. We aim to characterise the differences in ligand-receptor engagement and downstream signalling and trafficking bias profile.

Experimental Approach

Concentration-response curves to G protein dissociation, β-arrestin recruitment, receptor trafficking and second messenger signalling were generated using FPR2 ligands (BMS-986235, ACT-389949, compound 43 and WKYMVm), in HEK293A cells. Log(τ/K_A) was obtained from the operational model for bias analysis using WKYMVm as a reference ligand. Docking of FPR2 ligands into the active FPR2 cryoEM structure (PDBID: 7T6S) was performed using ICM pro software.

Key Results

Bias analysis revealed that WKYMVm and ACT-389949 shared a very similar bias profile. In comparison, BMS-986235 and compound 43 displayed approximately 5- to 50-fold bias away from β-arrestin recruitment and trafficking pathways, while being 35- to 60-fold biased towards cAMP inhibition and pERK1/2. Molecular docking predicted key amino acid interactions at the FPR2 shared between WKYMVm and ACT-389949, but not with BMS-986235 and compound 43.

Conclusion and Implications

In vitro characterisation demonstrated that WKYMVm and ACT-389949 differ from BMS-986235 and compound 43 in their signalling and protein coupling profile. This observation may be explained by differences in the ligand-receptor interactions. In vitro characterisation provided significant insights into identifying the desired bias profile for FPR2-based pharmacotherapy.

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结构不同的甲酰肽受体 2 激动剂的受体信号传导和细胞内贩运特征。

背景：人们对开发 FPR2 激动剂（化合物 43、ACT-389949 和 BMS-986235）作为潜在的促进缓解治疗药物越来越感兴趣，ACT-389949 和 BMS-986235 已进入 I 期临床开发。FPR2 激活会导致多种下游输出。在临床前模型中，ACT-389949 被观察到会导致快速的心动过速，而 BMS-986235 和化合物 43 则会诱导心脏保护作用。我们的目标是描述配体-受体啮合以及下游信号传导和贩运偏倚概况的差异：实验方法：使用 FPR2 配体（BMS-986235、ACT-389949、化合物 43 和 WKYMVm）在 HEK293A 细胞中生成 G 蛋白解离、β-restin 招募、受体贩运和第二信使信号的浓度-反应曲线。对数（τ/KA）是以 WKYMVm 为参照配体，通过运行模型进行偏差分析得到的。使用 ICM pro 软件将 FPR2 配体与活性 FPR2 CryoEM 结构（PDBID：7T6S）进行了对接：偏倚分析表明，WKYMVm 和 ACT-389949 具有非常相似的偏倚特征。相比之下，BMS-986235 和化合物 43 偏离 β -restin 招募和贩运途径约 5 至 50 倍，而偏向 cAMP 抑制和 pERK1/2 则为 35 至 60 倍。分子对接预测了 WKYMVm 与 ACT-389949 在 FPR2 上共有的关键氨基酸相互作用，而与 BMS-986235 和化合物 43 则没有：体外特性分析表明，WKYMVm 和 ACT-389949 与 BMS-986235 和 43 号化合物在信号传导和蛋白质耦合方面存在差异。配体-受体相互作用的差异可能解释了这一观察结果。体外表征为确定基于 FPR2 的药物疗法所需的偏倚特征提供了重要见解。

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来源期刊

British Journal of Pharmacology 医学-药学

CiteScore

15.40

自引率

12.30%

发文量

270

审稿时长

2.0 months

期刊介绍： The British Journal of Pharmacology (BJP) is a biomedical science journal offering comprehensive international coverage of experimental and translational pharmacology. It publishes original research, authoritative reviews, mini reviews, systematic reviews, meta-analyses, databases, letters to the Editor, and commentaries. Review articles, databases, systematic reviews, and meta-analyses are typically commissioned, but unsolicited contributions are also considered, either as standalone papers or part of themed issues. In addition to basic science research, BJP features translational pharmacology research, including proof-of-concept and early mechanistic studies in humans. While it generally does not publish first-in-man phase I studies or phase IIb, III, or IV studies, exceptions may be made under certain circumstances, particularly if results are combined with preclinical studies.