化学
位阻效应
兴奋剂
部分激动剂
立体化学
G蛋白偶联受体
分子模型
药物发现
组合化学
放射性配体
受体
结合位点
功能选择性
配体(生物化学)
选择性
化学合成
结构-活动关系
药理学
代谢稳定性
血浆蛋白结合
生物活性
生物化学
作者
Michael A. Malone,Ruijing Yin,Yueming Li,Laura Jenkins,Abdul-Akim Guseinov,Sara Marsango,Mark Huggett,Margaret Huggett,Anna Boyle,Angus J. Morrison,Irina G. Tikhonova,Graeme Milligan,A. T. Jamieson
标识
DOI:10.1021/acs.jmedchem.5c03367
摘要
High Resolution Image Download MS PowerPoint Slide GPR84 is a proinflammatory G-protein-coupled receptor implicated in autoimmune and fibrotic disorders. Although orthosteric antagonists have been reported, their physicochemical limitations have hindered development. Here, we describe the discovery and optimization of a chromenopyrrole scaffold as a new class of orthosteric GPR84 antagonists. Guided by molecular modeling and iterative SAR, we identified ligands that competitively inhibit agonist binding, confirmed by Schild analysis and radioligand displacement. Structural refinement defined key steric and hydrophobic features required for high-affinity binding, culminating in the isolation of a single active enantiomer, 42E2 (p A 2 = 8.41, p K i = 8.16). This chemotype displays improved drug-like properties relative to earlier series and strong selectivity over related free fatty acid receptors. Preliminary pharmacokinetic studies indicate favorable solubility and plasma protein binding, although metabolic stability remains to be optimized. These results expand the chemical space for GPR84 modulation and provide a foundation for therapeutic development and mechanistic investigation.
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