EhVps35, a retromer component, is involved in the recycling of the EhADH and Gal/GalNac virulent proteins of Entamoeba histolytica

Joselin Díaz-Valdez, R. Javier‐Reyna, Sarita Montaño, Daniel Talamás-Lara, Esther Orozco
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Abstract

The retromer is a highly conserved eukaryotic complex formed by the cargo selective complex (CSC) and the sorting nexin (SNX) dimer subcomplexes. Its function is protein recycling and recovery from the endosomes to conduct the target molecules to the trans-Golgi network or the plasma membrane. The protozoan responsible for human amoebiasis, Entamoeba histolytica, exhibits an active membrane movement and voracious phagocytosis, events in which the retromer may be fully involved. In this work, we studied the structure of EhVps35 the central member of the CSC retromeric subcomplex as it binds EhVps26 and EhVps29, the other two CSC members, allowing the position of the retromer in the membranes. We also studied the EhVps35 role in the recycling of virulence proteins, particularly those involved in phagocytosis. Confocal microscopy assays revealed that EhVps35 is located in the plasmatic and endosomal membranes and in the phagocytic cups and channels. In addition, it follows the target cell from the moment it is in contact with the trophozoites. Molecular docking analyses, immunoprecipitation assays, and microscopy studies revealed that EhVps35 interacts with the EhADH, Gal/GalNac lectin, and actin proteins. In addition, experimental evidence indicated that it recycles surface proteins, particularly EhADH and Gal/GalNac proteins, two molecules highly involved in virulence. Knockdown of the Ehvps35 gene induced a decrease in protein recycling, as well as impairments in the efficiency of adhesion and the rate of phagocytosis. The actin cytoskeleton was deeply affected by the Ehvps35 gene knockdown. In summary, our results revealed the participation of EhVps35 in protein recycling and phagocytosis. Furthermore, altogether, our results demonstrated the concert of finely regulated molecules, including EhVps35, EhADH, Gal/GalNac lectin, and actin, in the phagocytosis of E. histolytica.
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EhVps35是一种反转录蛋白成分,参与了EhADH和Gal/GalNac毒蛋白的回收利用
retromer 是一种高度保守的真核生物复合物,由货物选择复合物(CSC)和分拣毒素(SNX)二聚体亚复合物组成。它的功能是从内体回收蛋白质,并将目标分子引导至跨高尔基网络或质膜。导致人类阿米巴病的原生动物--组织溶解恩塔米巴虫(Entamoeba histolytica)--表现出活跃的膜运动和贪婪的吞噬作用,而 retromer 可能完全参与了这些活动。在这项工作中,我们研究了 EhVps35 的结构,它是 CSC retromeric 亚复合物的核心成员,它与另外两个 CSC 成员 EhVps26 和 EhVps29 结合,从而确定了 retromer 在膜中的位置。我们还研究了 EhVps35 在毒力蛋白循环中的作用,特别是那些参与吞噬作用的蛋白。共聚焦显微镜检测显示,EhVps35 位于质膜和内体膜以及吞噬杯和吞噬通道中。此外,它从目标细胞与滋养体接触的那一刻起就跟随目标细胞。分子对接分析、免疫沉淀试验和显微镜研究显示,EhVps35 与 EhADH、Gal/GalNac 凝集素和肌动蛋白相互作用。此外,实验证据表明,它能回收表面蛋白,尤其是 EhADH 和 Gal/GalNac 蛋白,这两种分子与毒力密切相关。敲除 Ehvps35 基因会导致蛋白质循环减少,并影响粘附效率和吞噬率。肌动蛋白细胞骨架深受 Ehvps35 基因敲除的影响。总之,我们的研究结果表明,EhVps35 参与了蛋白质回收和吞噬作用。此外,我们的研究结果表明,在组织溶解虫的吞噬过程中,EhVps35、EhADH、Gal/GalNac凝集素和肌动蛋白等调控精细的分子共同发挥作用。
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