Department of Biochemistry, Microbiology and Immunology, University of Saskatchewan, Saskatoon, Saskatchewan, Canada.
Symvivo Corporation, Burnaby, British Columbia, Canada.
Protein Sci. 2021 May;30(5):940-955. doi: 10.1002/pro.4057. Epub 2021 Mar 9.
Legionella pneumophila is an intracellular pathogen that causes Legionnaire's disease in humans. This bacterium can be found in freshwater environments as a free-living organism, but it is also an intracellular parasite of protozoa. Human infection occurs when inhaled aerosolized pathogen comes into contact with the alveolar mucosa and replicates in alveolar macrophages. Legionella enters the host cell by phagocytosis and redirects the Legionella-containing phagosomes from the phagocytic maturation pathway. These nascent phagosomes fuse with ER-derived secretory vesicles and membranes forming the Legionella-containing vacuole. Legionella subverts many host cellular processes by secreting over 300 effector proteins into the host cell via the Dot/Icm type IV secretion system. The cellular function for many Dot/Icm effectors is still unknown. Here, we present a structural and functional study of L. pneumophila effector RavA (Lpg0008). Structural analysis revealed that the RavA consists of four ~85 residue long α-helical domains with similar folds, which show only a low level of structural similarity to other protein domains. The ~90 residues long C-terminal segment is predicted to be natively unfolded. We show that during L. pneumophila infection of human cells, RavA localizes to the Golgi apparatus and to the plasma membrane. The same localization is observed when RavA is expressed in human cells. The localization signal resides within the C-terminal sequence C WTSFCGLF . Yeast-two-hybrid screen using RavA as bait identified RAB11A as a potential binding partner. RavA is present in L. pneumophila strains but only distant homologs are found in other Legionella species, where the number of repeats varies.
嗜肺军团菌是一种细胞内病原体,可引起人类军团病。这种细菌可以在淡水环境中作为自由生活的生物体存在,但它也是原生动物的细胞内寄生虫。当吸入的气溶胶病原体与肺泡黏膜接触并在肺泡巨噬细胞中复制时,人类就会感染军团菌。军团菌通过吞噬作用进入宿主细胞,并将含军团菌的吞噬体从吞噬体成熟途径中重新定向。这些新生的吞噬体与内质网衍生的分泌小泡和膜融合,形成含军团菌的空泡。军团菌通过 Dot/Icm 型 IV 型分泌系统将超过 300 种效应蛋白分泌到宿主细胞中,从而颠覆许多宿主细胞过程。许多 Dot/Icm 效应物的细胞功能仍然未知。在这里,我们对嗜肺军团菌效应蛋白 RavA(Lpg0008)进行了结构和功能研究。结构分析表明,RavA 由四个85 个残基长的α-螺旋结构域组成,其折叠相似,但与其他蛋白结构域的结构相似性很低。90 个残基长的 C 末端片段预计为天然无规卷曲。我们表明,在人类细胞中感染嗜肺军团菌时,RavA 定位于高尔基体和质膜。当 RavA 在人类细胞中表达时,也观察到相同的定位。定位信号位于 C 末端序列 C WTSFCGLF 内。使用 RavA 作为诱饵的酵母双杂交筛选鉴定出 RAB11A 是潜在的结合伴侣。RavA 存在于嗜肺军团菌菌株中,但在其他军团菌物种中只发现了遥远的同源物,其重复次数不同。