Shen Dong-Ming, Byth Kate F, Bertheloot Damien, Braams Simona, Bradley Sarah, Dean Dennis, Dekker Carien, El-Kattan Ayman F, Franchi Luigi, Glick Gary D, Ghosh Shomir, Hinniger Alexandra, Katz Jason D, Kitanovic Ana, Lu Xiaokang, Olhava Edward J, Opipari Anthony W, Sanchez Brian, Seidel H Martin, Stunden James, Stutz Andrea, Telling Alissa, Venkatraman Shankar, Winkler David G, Roush William R
IFM Therapeutics, Boston, Massachusetts 02116, United States.
IFM Therapeutics GmbH, Bonn 53127, Germany.
J Med Chem. 2025 Mar 13;68(5):5529-5550. doi: 10.1021/acs.jmedchem.4c02759. Epub 2025 Mar 4.
The discovery of DFV890 (()-), a potent and selective NLRP3 antagonist, is described. Replacement of the sulfonyl urea core from the first-generation NLRP3 antagonist CRID3 with a sulfonimidamide core afforded a novel and potent series of NLRP3 antagonists. The enantiomers of the sulfonimidamide series were found to be consistently more potent than structurally related sulfonyl ureas. Replacement of the furan unit of CRID3 with a 5-substituted thiazole unit led to DFV890 (()-), which potently inhibited IL-1β production in THP-1 cells and in primary human cells, blocked multiple downstream effectors of NLRP3 activation, and substantially improved PK properties and significantly lowered the predicted human dose compared to that for CRID3. DFV890 (()-) was also effective in an air pouch model of gout.
本文描述了强效选择性NLRP3拮抗剂DFV890(()-)的发现。用磺酰亚胺酰胺核心取代第一代NLRP3拮抗剂CRID3的磺酰脲核心,得到了一系列新型强效NLRP3拮抗剂。发现磺酰亚胺酰胺系列的对映体始终比结构相关的磺酰脲更有效。用5-取代噻唑单元取代CRID3的呋喃单元得到DFV890(()-),其能有效抑制THP-1细胞和原代人细胞中IL-1β的产生,阻断NLRP3激活的多个下游效应器,与CRID3相比,显著改善了药代动力学性质并大幅降低了预测的人体剂量。DFV890(() -)在痛风气袋模型中也有效。
