A system for functional studies of the major virulence factor of malaria parasites

Jakob Cronshagen, Johannes Allweier, Paolo Mesen-Ramirez, Jan Staecker, Anna Viktoria Vaaben, Gala Ramon-Zamorano, Isabel Naranjo, Susann Ofori, Pascal WTC Jansen, Joelle Hornebeck, Florian Kieferle, Agnes Murk, Elicia Martin, Carolina Castro-Pena, Richard Bartfai, Thomas Lavstsen, Iris Bruchhaus, Tobias Spielmann
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Abstract

PfEMP1 is a variable antigen displayed on erythrocytes infected with the malaria parasite Plasmodium falciparum. PfEMP1 mediates binding of the infected cell to the endothelium of blood vessels, a cause of severe malaria. Each parasite encodes ~60 different PfEMP1 variants but only one is expressed at a time. Switching between variants underlies immune evasion in the host and variant-specific severity of disease. PfEMP1 is difficult to study due to expression heterogeneity between parasites which also renders genetic modification approaches ineffective. Here, we used selection linked integration (SLI) to generate parasites all expressing the same PfEMP1 variant and genome edit the expressed locus. Moving this system from the reference strain 3D7 to IT4 resulted in PfEMP1 expressor parasites with effective receptor binding capacities. We also introduce a second version of SLI (SLI2) to introduce additional genome edits. Using these systems, we study PfEMP1 trafficking, generate cell lines binding to all major endothelial receptors, survey the protein environment from functional PfEMP1 in the host cell and identify new proteins needed for PfEMP1 mediated sequestration. These findings show the usefulness of the system to study the key virulence factor of malaria parasites.
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疟疾寄生虫主要毒力因子功能研究系统
PfEMP1 是感染恶性疟原虫的红细胞上显示的一种可变抗原。PfEMP1 介导受感染细胞与血管内皮结合,是导致严重疟疾的原因之一。每种寄生虫都编码约 60 种不同的 PfEMP1 变体,但每次只表达一种。变体之间的切换是宿主免疫逃避和变体特异性疾病严重性的基础。由于寄生虫之间存在表达异质性,因此很难对 PfEMP1 进行研究,这也导致基因修饰方法无效。在这里,我们利用选择连接整合(SLI)技术生成表达相同 PfEMP1 变异体的寄生虫,并对表达的基因座进行基因组编辑。将这一系统从参考菌株 3D7 移植到 IT4 后,产生了具有有效受体结合能力的 PfEMP1 表达寄生虫。我们还引入了第二版 SLI(SLI2),以引入额外的基因组编辑。利用这些系统,我们研究了 PfEMP1 的贩运,生成了与所有主要内皮受体结合的细胞系,调查了宿主细胞中功能性 PfEMP1 的蛋白质环境,并鉴定了 PfEMP1 介导的螯合作用所需的新蛋白质。这些发现表明,该系统对研究疟疾寄生虫的关键毒力因子非常有用。
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