Anthony N Hodder, Brad E Sleebs, Greg Adams, Sina Rezazadeh, Anna Ngo, Kate Jarman, Stephen Scally, Peter Czabotar, Hongwu Wang, John A McCauley, David B Olsen, Alan F Cowman
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引用次数: 0
Abstract
A library of known aspartic protease inhibitors was screened to identify compounds that inhibit plasmepsin V from Plasmodium vivax. This screen revealed compounds with an imino-pyrimidinone-fused pyrrolidine (IPF) scaffold that exhibited sub-micromolar inhibitory activity against plasmepsin V. Further screening of IPF analogs against the related aspartic protease plasmepsin X showed inhibitory activity, while a third aspartic protease, plasmepsin IX, was not significantly inhibited. Modifications to the P1 biaryl region of the IPF scaffold differentially modulated inhibition of both plasmepsin V and X. Notably, analogs with potent plasmepsin X inhibitory activity successfully blocked the growth of Plasmodium falciparum in vitro. X-ray structures of IPF analogs in complex with plasmepsin V provided insights into their binding mode and revealed avenues to further improve IPF potency and selectivity between plasmepsin V and X. This understanding of how these compounds interact with the active sites of plasmepsin V and X will serve as a foundation for the future design of dual inhibitors targeting these proteases.
对已知的天冬氨酸蛋白酶抑制剂库进行了筛选,以确定能抑制间日疟原虫胰蛋白酶 V 的化合物。这一筛选发现了具有亚氨基嘧啶酮融合吡咯烷(IPF)支架的化合物,这些化合物对疟原蛋白酶 V 具有亚微摩级的抑制活性。IPF 类似物对相关的天冬氨酸蛋白酶疟原蛋白酶 X 的进一步筛选显示出抑制活性,而对第三种天冬氨酸蛋白酶疟原蛋白酶 IX 的抑制作用不明显。对 IPF 支架的 P1 双芳基区的修饰不同程度地调节了对胰蛋白酶 V 和 X 的抑制作用。值得注意的是,具有强效胰蛋白酶 X 抑制活性的类似物成功地阻断了恶性疟原虫在体外的生长。IPF 类似物与纤溶酶原 V 复合物的 X 射线结构深入揭示了它们的结合模式,并揭示了进一步提高 IPF 效力和纤溶酶原 V 与纤溶酶原 X 之间选择性的途径。
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