毒力
生物膜
丝氨酸
金黄色葡萄球菌
毒力因子
微生物学
鉴定(生物学)
生物
酶
共价键
葡萄球菌感染
生物化学
细菌
化学
基因
遗传学
有机化学
植物
作者
Tulsi Upadhyay,Emily C. Woods,Stephen Dela Ahator,Kjersti Julin,Franco F. Faucher,Md Jalal Uddin,Marijn J. Hollander,Nichole J. Pedowitz,Daniel Abegg,Isabella Hammond,Ifeanyichukwu E. Eke,Sijie Wang,Shiyu Chen,John M. Bennett,Jeyun Jo,Christian S. Lentz,Alexander Adibekian,Matthias Fellner,Matthew Bogyo
标识
DOI:10.1038/s41467-025-60367-3
摘要
Staphylococcus aureus is a leading cause of bacteria-associated mortality worldwide. New tools are needed to both image and treat this pathogen. We previously identified a group of S. aureus serine hydrolases (Fphs), which regulate aspects of virulence and lipid metabolism. However, due to high structural and functional similarities, it remains challenging to distinguish the specific roles of members of this family. Here, we apply a high-throughput screening approach using a library of covalent electrophiles to identify inhibitors for FphB, FphE, and FphH. We identify selective covalent inhibitors for each target without the need for extensive medicinal chemistry optimization. Structural and biochemical analysis identify novel binding modes for several of the inhibitors. Functional studies using the inhibitors suggest that all three hydrolases likely play distinct functional roles in biofilm formation and virulence. This approach has the potential to be applied to target hydrolases in other diverse pathogens or higher eukaryotes. Covalent inhibitors that selectively target bacterial enzymes are potential antibiotic drug candidates. Here, the authors apply high-throughput screening to identify selective covalent inhibitors that target serine hydrolases in Staphylococcus aureus
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