新型疟原虫烯酰基-ACP 还原酶（PfFabI）抑制剂的设计、合成及生物和晶体学评价。

Design, synthesis, and biological and crystallographic evaluation of novel inhibitors of Plasmodium falciparum enoyl-ACP-reductase (PfFabI).

机构信息

Department of Pharmacy and Biotechnology, University of Bologna , Via Belmeloro 6, I-40126 Bologna, Italy.

出版信息

J Med Chem. 2013 Oct 10;56(19):7516-26. doi: 10.1021/jm400637m. Epub 2013 Sep 25.

Abstract

Malaria, a disease of worldwide significance, is responsible for over one million deaths annually. The liver-stage of Plasmodium's life cycle is the first, obligatory, but clinically silent step in malaria infection. The P. falciparum type II fatty acid biosynthesis pathway (PfFAS-II) has been found to be essential for complete liver-stage development and has been regarded as a potential antimalarial target for the development of drugs for malaria prophylaxis and liver-stage eradication. In this paper, new coumarin-based triclosan analogues are reported and their biological profile is explored in terms of inhibitory potency against enzymes of the PfFAS-II pathway. Among the tested compounds, 7 and 8 showed the highest inhibitory potency against Pf enoyl-ACP-reductase (PfFabI), followed by 15 and 3. Finally, we determined the crystal structures of compounds 7 and 11 in complex with PfFabI to identify their mode of binding and to confirm outcomes of docking simulations.

摘要

疟疾是一种具有全球意义的疾病，每年导致超过 100 万人死亡。疟原虫生命周期的肝期是疟疾感染的第一个、强制性的、但临床上无声的步骤。已经发现恶性疟原虫 II 型脂肪酸生物合成途径（PfFAS-II）对于完全肝期发育是必不可少的，并且被认为是开发疟疾预防和肝期消除药物的潜在抗疟靶点。在本文中，报告了新的基于香豆素的三氯生类似物，并根据对 PfFAS-II 途径酶的抑制效力来探索其生物学特征。在所测试的化合物中，7 和 8 对 Pf 烯酰基-ACP 还原酶（PfFabI）表现出最高的抑制活性，其次是 15 和 3。最后，我们确定了化合物 7 和 11 与 PfFabI 复合物的晶体结构，以确定它们的结合模式并确认对接模拟的结果。

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新型疟原虫烯酰基-ACP 还原酶（PfFabI）抑制剂的设计、合成及生物和晶体学评价。

Design, synthesis, and biological and crystallographic evaluation of novel inhibitors of Plasmodium falciparum enoyl-ACP-reductase (PfFabI).

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