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大规模鉴定调节宿主细胞囊泡运输途径的嗜肺军团菌Dot/Icm底物。

Large-scale identification of Legionella pneumophila Dot/Icm substrates that modulate host cell vesicle trafficking pathways.

作者信息

Heidtman Matthew, Chen Emy J, Moy Man-Yu, Isberg Ralph R

机构信息

Department of Molecular Biology and Microbiology, Tufts University School of Medicine, 150 Harrison Avenue, Boston, MA 02111, USA.

出版信息

Cell Microbiol. 2009 Feb;11(2):230-48. doi: 10.1111/j.1462-5822.2008.01249.x. Epub 2008 Oct 30.

DOI:10.1111/j.1462-5822.2008.01249.x
PMID:19016775
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2744955/
Abstract

The bacterial pathogen Legionella pneumophila replicates in a specialized vacuole within host cells. Establishment of the replication vacuole depends on the Dot/Icm translocation system that delivers a large number of protein substrates into the host cell. The functions of most substrates are unknown. Here, we analysed a defined set of 127 confirmed or candidate Dot/Icm substrates for their effect on host cell processes using yeast as a model system. Expression of 79 candidates caused significant yeast growth defects, indicating that these proteins impact essential host cell pathways. Notably, a group of 21 candidates interfered with the trafficking of secretory proteins to the yeast vacuole. Three candidates that caused yeast secretory defects (SetA, Ceg19 and Ceg9) were investigated further. These proteins impinged upon vesicle trafficking at distinct stages and had signals that allowed translocation into host cells by the Dot/Icm system. Ectopically produced SetA, Ceg19 and Ceg9 localized to secretory organelles in mammalian cells, consistent with a role for these proteins in modulating host cell vesicle trafficking. Interestingly, the ability of SetA to cause yeast phenotypes was dependent upon a functional glycosyltransferase domain. We hypothesize that SetA may glycosylate a component of the host cell vesicle trafficking machinery during L. pneumophila infection.

摘要

细菌病原体嗜肺军团菌在宿主细胞内的一个特殊液泡中进行复制。复制液泡的形成依赖于Dot/Icm转运系统,该系统将大量蛋白质底物输送到宿主细胞中。大多数底物的功能尚不清楚。在这里,我们以酵母为模型系统,分析了一组确定的127种已确认或候选的Dot/Icm底物对宿主细胞过程的影响。79种候选物的表达导致酵母生长出现明显缺陷,表明这些蛋白质影响宿主细胞的基本途径。值得注意的是,一组21种候选物干扰了分泌蛋白向酵母液泡的运输。对导致酵母分泌缺陷的三种候选物(SetA、Ceg19和Ceg9)进行了进一步研究。这些蛋白质在不同阶段影响囊泡运输,并且具有允许通过Dot/Icm系统转运到宿主细胞中的信号。异位产生的SetA、Ceg19和Ceg9定位于哺乳动物细胞的分泌细胞器,这与这些蛋白质在调节宿主细胞囊泡运输中的作用一致。有趣的是,SetA导致酵母表型的能力依赖于一个功能性的糖基转移酶结构域。我们推测,在嗜肺军团菌感染期间,SetA可能会使宿主细胞囊泡运输机制的一个组分发生糖基化。

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