恶性疟原虫的化学遗传学

Chemical genetics of Plasmodium falciparum.

作者信息

Guiguemde W Armand, Shelat Anang A, Bouck David, Duffy Sandra, Crowther Gregory J, Davis Paul H, Smithson David C, Connelly Michele, Clark Julie, Zhu Fangyi, Jiménez-Díaz María B, Martinez María S, Wilson Emily B, Tripathi Abhai K, Gut Jiri, Sharlow Elizabeth R, Bathurst Ian, El Mazouni Farah, Fowble Joseph W, Forquer Isaac, McGinley Paula L, Castro Steve, Angulo-Barturen Iñigo, Ferrer Santiago, Rosenthal Philip J, Derisi Joseph L, Sullivan David J, Lazo John S, Roos David S, Riscoe Michael K, Phillips Margaret A, Rathod Pradipsinh K, Van Voorhis Wesley C, Avery Vicky M, Guy R Kiplin

机构信息

Department of Chemical Biology and Therapeutics, St Jude Children's Research Hospital, Memphis, Tennessee 38105, USA.

出版信息

Nature. 2010 May 20;465(7296):311-5. doi: 10.1038/nature09099.

DOI:10.1038/nature09099

PMID:20485428

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2874979/

Abstract

Malaria caused by Plasmodium falciparum is a disease that is responsible for 880,000 deaths per year worldwide. Vaccine development has proved difficult and resistance has emerged for most antimalarial drugs. To discover new antimalarial chemotypes, we have used a phenotypic forward chemical genetic approach to assay 309,474 chemicals. Here we disclose structures and biological activity of the entire library-many of which showed potent in vitro activity against drug-resistant P. falciparum strains-and detailed profiling of 172 representative candidates. A reverse chemical genetic study identified 19 new inhibitors of 4 validated drug targets and 15 novel binders among 61 malarial proteins. Phylochemogenetic profiling in several organisms revealed similarities between Toxoplasma gondii and mammalian cell lines and dissimilarities between P. falciparum and related protozoans. One exemplar compound displayed efficacy in a murine model. Our findings provide the scientific community with new starting points for malaria drug discovery.

摘要

由恶性疟原虫引起的疟疾是一种每年在全球导致88万人死亡的疾病。疫苗研发已被证明困难重重，并且大多数抗疟药物都出现了耐药性。为了发现新的抗疟化学类型，我们采用了表型正向化学遗传学方法来检测309474种化学物质。在此，我们公布了整个文库的结构和生物活性——其中许多对耐药恶性疟原虫菌株显示出强大的体外活性——以及172个代表性候选物的详细分析。一项反向化学遗传学研究在61种疟疾蛋白质中鉴定出了4个已验证药物靶点的19种新抑制剂和15种新型结合物。在几种生物体中的系统化学遗传学分析揭示了弓形虫与哺乳动物细胞系之间的相似性以及恶性疟原虫与相关原生动物之间的差异。一种示例性化合物在小鼠模型中显示出疗效。我们的研究结果为疟疾药物发现的科学界提供了新的起点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ce91/2874979/533981f60fbc/nihms-198454-f0001.jpg

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恶性疟原虫的化学遗传学

Chemical genetics of Plasmodium falciparum.

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