Division of Molecular Genetics and Cell biology, Nanyang Technological University, Singapore.
Division of Structural Biology and Biochemistry, School of Biological Sciences, Nanyang Technological University, Singapore.
Cell Microbiol. 2017 Sep;19(9). doi: 10.1111/cmi.12747. Epub 2017 May 9.
The successful invasion of Plasmodium is an essential step in their life cycle. The parasite reticulocyte-binding protein homologues (RHs) and erythrocyte-binding like proteins are two families involved in the invasion leading to merozoite-red blood cell (RBC) junction formation. Ca signaling has been shown to play a critical role in the invasion. RHs have been linked to Ca signaling, which triggers the erythrocyte-binding like proteins release ahead of junction formation, consistent with RHs performing an initial sensing function in identifying suitable RBCs. RH5, the only essential RHs, is a highly promising vaccine candidate. RH5-basigin interaction is essential for merozoite invasion and also important in determining host tropism. Here, we show that RH5 has a distinct function from the other RHs. We show that RH5-Basigin interaction on its own triggers a Ca signal in the RBC resulting in changes in RBC cytoskeletal proteins phosphorylation and overall alterations in RBC cytoskeleton architecture. Antibodies targeting RH5 that block the signal prevent invasion before junction formation consistent with the Ca signal in the RBC leading to rearrangement of the cytoskeleton required for invasion. This work provides the first time a functional context for the essential role of RH5 and will now open up new avenues to target merozoite invasion.
疟原虫的成功入侵是其生命周期中的一个重要步骤。寄生虫的网织红细胞结合蛋白同源物(RHs)和红细胞结合样蛋白是参与入侵导致裂殖体-红细胞(RBC)连接形成的两个家族。钙信号已被证明在入侵中起着关键作用。RHs 与钙信号有关,钙信号会在连接形成之前触发红细胞结合样蛋白的释放,这与 RHs 发挥初步感应功能以识别合适的 RBC 一致。RH5 是唯一必需的 RHs,是一种很有前途的疫苗候选物。RH5- basigin 相互作用对于裂殖体入侵是必需的,对于确定宿主嗜性也很重要。在这里,我们表明 RH5 具有与其他 RHs 不同的功能。我们表明,RH5-Basigin 相互作用本身会在 RBC 中引发钙信号,导致 RBC 细胞骨架蛋白磷酸化的变化和 RBC 细胞骨架结构的整体改变。针对 RH5 阻断信号的抗体可以阻止连接形成前的入侵,这与 RBC 中的钙信号一致,该信号导致入侵所需的细胞骨架重排。这项工作首次为 RH5 的必需作用提供了功能背景,并将为靶向裂殖体入侵开辟新的途径。
