二肽基肽酶
计算生物学
药物发现
生物
生物化学
配体(生物化学)
酶
底物特异性
化学
组合化学
受体
作者
Luís A. R. Carvalho,B. Ross,Lorenz Fehr,Oguz Bolgi,Svenja Wöhrle,Kenneth M. Lum,David Podlesainski,Andreia C. Vieira,R. Kiefersauer,Rita Félix,Tiago Rodrigues,Susana D. Lucas,Olaf Groß,Ruth Geiss‐Friedlander,Benjamin F. Cravatt,Robert Huber,Markus Kaiser,Rui Moreira
标识
DOI:10.1002/anie.202210498
摘要
Abstract Dipeptidyl peptidases 8 and 9 (DPP8/9) have gathered interest as drug targets due to their important roles in biological processes like immunity and tumorigenesis. Elucidation of their distinct individual functions remains an ongoing task and could benefit from the availability of novel, chemically diverse and selective chemical tools. Here, we report the activity‐based protein profiling (ABPP)‐mediated discovery of 4‐oxo‐β‐lactams as potent, non‐substrate‐like nanomolar DPP8/9 inhibitors. X‐ray crystallographic structures revealed different ligand binding modes for DPP8 and DPP9, including an unprecedented targeting of an extended S2′ (eS2′) subsite in DPP8. Biological assays confirmed inhibition at both target and cellular levels. Altogether, our integrated chemical proteomics and structure‐guided small molecule design approach led to novel DPP8/9 inhibitors with alternative molecular inhibition mechanisms, delivering the highest selectivity index reported to date.
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