Wichers Jan Stephan, Wunderlich Juliane, Heincke Dorothee, Pazicky Samuel, Strauss Jan, Schmitt Marius, Kimmel Jessica, Wilcke Louisa, Scharf Sarah, von Thien Heidrun, Burda Paul-Christian, Spielmann Tobias, Löw Christian, Filarsky Michael, Bachmann Anna, Gilberger Tim W
Centre for Structural Systems Biology, Hamburg, Germany.
Bernhard Nocht Institute for Tropical Medicine, Hamburg, Germany.
Cell Microbiol. 2021 Sep;23(9):e13341. doi: 10.1111/cmi.13341. Epub 2021 May 16.
The inner membrane complex (IMC) is a defining feature of apicomplexan parasites, which confers stability and shape to the cell, functions as a scaffolding compartment during the formation of daughter cells and plays an important role in motility and invasion during different life cycle stages of these single-celled organisms. To explore the IMC proteome of the malaria parasite Plasmodium falciparum we applied a proximity-dependent biotin identification (BioID)-based proteomics approach, using the established IMC marker protein Photosensitized INA-Labelled protein 1 (PhIL1) as bait in asexual blood-stage parasites. Subsequent mass spectrometry-based peptide identification revealed enrichment of 12 known IMC proteins and several uncharacterized candidate proteins. We validated nine of these previously uncharacterized proteins by endogenous GFP-tagging. Six of these represent new IMC proteins, while three proteins have a distinct apical localization that most likely represents structures described as apical annuli in Toxoplasma gondii. Additionally, various Kelch13 interacting candidates were identified, suggesting an association of the Kelch13 compartment and the IMC in schizont and merozoite stages. This work extends the number of validated IMC proteins in the malaria parasite and reveals for the first time the existence of apical annuli proteins in P. falciparum. Additionally, it provides evidence for a spatial association between the Kelch13 compartment and the IMC in late blood-stage parasites.
内膜复合体(IMC)是顶复门寄生虫的一个标志性特征,它赋予细胞稳定性和形状,在子细胞形成过程中作为一个支架隔室发挥作用,并且在这些单细胞生物的不同生命周期阶段的运动和入侵中起重要作用。为了探索疟原虫恶性疟原虫的IMC蛋白质组,我们应用了一种基于邻近依赖性生物素识别(BioID)的蛋白质组学方法,在无性血液阶段寄生虫中使用已确立的IMC标记蛋白光敏INA标记蛋白1(PhIL1)作为诱饵。随后基于质谱的肽段鉴定揭示了12种已知IMC蛋白和几种未表征的候选蛋白的富集。我们通过内源性GFP标记验证了其中9种先前未表征的蛋白。其中6种代表新的IMC蛋白,而3种蛋白具有独特的顶端定位,很可能代表在弓形虫中被描述为顶端环的结构。此外,还鉴定了各种与Kelch13相互作用的候选蛋白,表明在裂殖体和裂殖子阶段Kelch13隔室与IMC之间存在关联。这项工作扩展了疟原虫中已验证的IMC蛋白的数量,并首次揭示了恶性疟原虫中顶端环蛋白的存在。此外,它为晚期血液阶段寄生虫中Kelch13隔室与IMC之间的空间关联提供了证据。
