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高通量筛选恶性疟原虫环鸟苷酸依赖蛋白激酶发现噻唑骨架可杀灭红细胞期和有性期寄生虫。

High-throughput screening of the Plasmodium falciparum cGMP-dependent protein kinase identified a thiazole scaffold which kills erythrocytic and sexual stage parasites.

机构信息

GSK Global Health, Severo Ochoa 2, Tres Cantos 28760 Madrid, Spain.

Faculty of Infectious and Tropical Diseases, London School of Hygiene & Tropical Medicine, London, WC1E 7HT, United Kingdom.

出版信息

Sci Rep. 2019 May 7;9(1):7005. doi: 10.1038/s41598-019-42801-x.

DOI:10.1038/s41598-019-42801-x
PMID:31065005
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6504873/
Abstract

Antimalarial drug resistance compels the quest for new compounds that target alternative pathways to current drugs. The Plasmodium cyclic GMP-dependent protein kinase (PKG) has essential functions in all of the major life cycle developmental stages. An imidazopyridine PKG inhibitor scaffold was previously shown to clear P. falciparum infection in a rodent model in vivo and blocked transmission to mosquitoes providing proof of concept for this target. To find new classes of PKG inhibitors to serve as alternative chemical starting points, we performed a high-throughput screen of the GSK Full Diversity Collection using recombinant P. falciparum PKG. We developed a robust enzymatic assay in a 1536-well plate format. Promising compounds were then tested for activity against P. falciparum asexual blood stage growth, selectivity and cytotoxicity. By using a scoring system we selected the 66 most promising PKG inhibitors (comprising nine clusters and seven singletons). Among these, thiazoles were the most potent scaffold with mid-nanomolar activity on P. falciparum blood stage and gamete development. Using Kinobeads profiling we identified additional P. falciparum protein kinases targeted by the thiazoles that mediate a faster speed of the kill than PKG-selective compounds. This scaffold represents a promising starting point to develop a new antimalarial.

摘要

抗疟药物耐药性迫使人们寻求新的化合物,这些化合物针对的是现有药物的替代途径。疟原虫环鸟苷酸依赖性蛋白激酶(PKG)在所有主要生命周期发育阶段都具有重要功能。先前已经证明,一种咪唑并吡啶 PKG 抑制剂支架可以在体内啮齿动物模型中清除疟原虫感染,并阻止向蚊子传播,从而为该靶点提供了概念验证。为了寻找新的 PKG 抑制剂类别作为替代化学起点,我们使用重组疟原虫 PKG 对 GSK 全多样性文库进行了高通量筛选。我们开发了一种在 1536 孔板格式中进行的稳健酶促测定法。然后,对有前途的化合物进行了针对疟原虫无性血期生长、选择性和细胞毒性的活性测试。通过使用评分系统,我们选择了 66 种最有前途的 PKG 抑制剂(包括九个簇和七个单一组分)。在这些抑制剂中,噻唑类化合物对疟原虫血期和配子发育的抑制活性最强,达到中纳摩尔水平。使用 Kinobeads 分析,我们鉴定了噻唑类化合物靶向的其他疟原虫蛋白激酶,这些激酶介导的杀伤速度比 PKG 选择性化合物更快。该支架代表了开发新型抗疟药物的有希望的起点。

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