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间日疟原虫和诺氏疟原虫这两种人类疟原虫的磷酸乙醇胺甲基转移酶的结构、功能及抑制作用

Structure, function and inhibition of the phosphoethanolamine methyltransferases of the human malaria parasites Plasmodium vivax and Plasmodium knowlesi.

作者信息

Garg Aprajita, Lukk Tiit, Kumar Vidya, Choi Jae-Yeon, Augagneur Yoann, Voelker Dennis R, Nair Satish, Ben Mamoun Choukri

机构信息

Department of Internal Medicine, Yale University School of Medicine, New Haven CT, 06520 USA.

1] Department of Biochemistry, University of Illinois at Urbana-Champaign [2] Cornell High Energy Synchrotron Source, Cornell University.

出版信息

Sci Rep. 2015 Mar 12;5:9064. doi: 10.1038/srep09064.

DOI:10.1038/srep09064
PMID:25761669
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4357015/
Abstract

Phosphoethanolamine methyltransferases (PMTs) catalyze the three-step methylation of phosphoethanolamine to form phosphocholine, a critical step in the synthesis of phosphatidylcholine in a select number of eukaryotes including human malaria parasites, nematodes and plants. Genetic studies in the malaria parasite Plasmodium falciparum have shown that the methyltransferase PfPMT plays a critical function in parasite development and differentiation. The presence of PMT orthologs in other malaria parasites that infect humans and their absence in mammals make them ideal targets for the development of selective antimalarials with broad specificity against different Plasmodium species. Here we describe the X-ray structures and biochemical properties of PMT orthologs from Plasmodium vivax and Plasmodium knowlesi and show that both enzymes are inhibited by amodiaquine and NSC158011, two drugs with potent antimalarial activity. Metabolic studies in a yeast mutant that relies on PkPMT or PvPMT for survival demonstrated that these compounds inhibit phosphatidylcholine biosynthesis from ethanolamine. Our structural and functional data provide insights into the mechanism of catalysis and inhibition of PMT enzymes and set the stage for a better design of more specific and selective antimalarial drugs.

摘要

磷酸乙醇胺甲基转移酶(PMTs)催化磷酸乙醇胺的三步甲基化反应以形成磷酸胆碱,这是包括人类疟原虫、线虫和植物在内的某些真核生物中磷脂酰胆碱合成的关键步骤。对恶性疟原虫的遗传学研究表明,甲基转移酶PfPMT在疟原虫的发育和分化中起关键作用。在感染人类的其他疟原虫中存在PMT直系同源物,而在哺乳动物中不存在,这使它们成为开发对不同疟原虫物种具有广泛特异性的选择性抗疟药的理想靶点。在此,我们描述了间日疟原虫和诺氏疟原虫PMT直系同源物的X射线结构和生化特性,并表明这两种酶均受到阿莫地喹和NSC158011的抑制,这两种药物具有强大的抗疟活性。在依赖PkPMT或PvPMT生存的酵母突变体中进行的代谢研究表明,这些化合物抑制了乙醇胺合成磷脂酰胆碱的过程。我们的结构和功能数据为PMT酶的催化和抑制机制提供了见解,并为更好地设计更具特异性和选择性的抗疟药物奠定了基础。

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Synthesis, Molecular Docking and Antiplasmodial Activities of New Tetrahydro-β-Carbolines.新型四氢-β-咔啉的合成、分子对接及抗疟活性。
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Computational and experimental elucidation of Plasmodium falciparum phosphoethanolamine methyltransferase inhibitors: Pivotal drug target.计算与实验阐明恶性疟原虫磷酸乙醇胺甲基转移酶抑制剂:关键药物靶标。
PLoS One. 2019 Aug 22;14(8):e0221032. doi: 10.1371/journal.pone.0221032. eCollection 2019.
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Biomol NMR Assign. 2013 Apr;7(1):17-20. doi: 10.1007/s12104-012-9372-3. Epub 2012 Mar 6.
10
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