化学
体内
体外
丝氨酸
药理学
结构-活动关系
蛋白酵素
抑制性突触后电位
铅化合物
立体化学
生物化学
酶
神经科学
生物技术
生物
医学
作者
Zenichi Ikeda,Taku Kamei,Yusuke Sasaki,Matthew Reynolds,Nozomu Sakai,Masato Yoshikawa,Michiko Tawada,Nao Morishita,Douglas R. Dougan,Chien‐Hung Chen,Irena Levin,Hua Zou,Masako Kuno,Naoto Arimura,Yusuke Kikukawa,Mitsuyo Kondo,Kimio Tohyama,Kenjiro Sato
标识
DOI:10.1021/acs.jmedchem.3c00348
摘要
A novel series of non-amidine-based C1s inhibitors have been explored. Starting from high-throughput screening hit 3, isoquinoline was replaced with 1-aminophthalazine to enhance C1s inhibitory activity while exhibiting good selectivity against other serine proteases. We first disclose a crystal structure of a complex of C1s and a small-molecule inhibitor (4e), which guided structure-based optimization around the S2 and S3 sites to further enhance C1s inhibitory activity by over 300-fold. Improvement of membrane permeability by incorporation of fluorine at the 8-position of 1-aminophthalazine led to identification of (R)-8 as a potent, selective, orally available, and brain-penetrable C1s inhibitor. (R)-8 significantly inhibited membrane attack complex formation induced by human serum in a dose-dependent manner in an in vitro assay system, proving that selective C1s inhibition blocked the classical complement pathway effectively. As a result, (R)-8 emerged as a valuable tool compound for both in vitro and in vivo assessment.
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