Dual Control of Host Actin Polymerization by a Legionella Effector Pair

IF 2.6 2区 生物学 Q3 CELL BIOLOGY Cellular Microbiology Pub Date : 2024-01-27 DOI:10.1155/2024/8896219
M. Pillon, C. Michard, N. Baïlo, J. Bougnon, K. Picq, O. Dubois, C. Andrea, L. Attaiech, V. Daubin, S. Jarraud, E. Kay, P. Doublet
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Abstract

Host actin cytoskeleton is often targeted by pathogenic bacteria through the secretion of effectors. Legionella pneumophila virulence relies on the injection of the largest known arsenal of bacterial proteins, over 300 Dot/Icm type 4 secretion system effectors, into the host cytosol. Here, we define the functional interactions between VipA and LegK2, two effectors with antagonistic activities towards actin polymerization that have been proposed to interfere with the endosomal pathway. We confirmed the prominent role of LegK2 effector in Legionella infection, as the deletion of legK2 results in defects in the inhibition of actin polymerization at the Legionella-containing vacuole, as well as in endosomal escape of bacteria and subsequent intracellular replication. More importantly, we observed the restoration of the ΔlegK2 mutant defects, upon deletion of vipA gene, making LegK2/VipA a novel example of effector-effector suppression pair that targets the actin cytoskeleton and whose functional interaction impacts L. pneumophila virulence. We demonstrated that LegK2 and VipA do not modulate each other’s activity in a “metaeffector” relationship. Instead, the antagonistic activities of the LegK2/VipA effector pair would target different substrates, Arp2/3 for LegK2 and G-actin for VipA, to temporally control actin polymerization at the LCV and interfere with phagosome maturation and endosome recycling, thus contributing to the intracellular life cycle of the bacterium. Strikingly, the functional interaction between LegK2 and VipA is consolidated by an evolutionary history that has refined the best effector repertoire for the benefit of L. pneumophila virulence.

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军团菌效应物对宿主肌动蛋白聚合的双重控制
致病细菌经常通过分泌效应物来攻击宿主肌动蛋白细胞骨架。嗜肺军团菌的致病力依赖于向宿主细胞质注入已知最大的细菌蛋白质库,即 300 多种 Dot/Icm 4 型分泌系统效应物。在这里,我们确定了 VipA 和 LegK2 之间的功能相互作用,这两种效应物对肌动蛋白聚合具有拮抗活性,被认为会干扰内体途径。我们证实了 LegK2 效应器在军团菌感染中的突出作用,因为缺失 legK2 会导致含军团菌液泡的肌动蛋白聚合受到抑制,以及细菌在内质体逃逸并随后在细胞内复制的缺陷。更重要的是,我们观察到在删除 vipA 基因后,ΔlegK2 突变体的缺陷得以恢复,这使 LegK2/VipA 成为靶向肌动蛋白细胞骨架的效应抑制对的一个新例子,其功能相互作用影响着嗜肺军团菌的毒力。我们证明,LegK2 和 VipA 并不以 "元效应器 "关系调节彼此的活性。相反,LegK2/VipA效应物对的拮抗活动会针对不同的底物(LegK2针对Arp2/3,VipA针对G-肌动蛋白),在时间上控制LCV的肌动蛋白聚合,干扰吞噬体成熟和内质体循环,从而促进细菌的胞内生命周期。令人震惊的是,LegK2 和 VipA 之间的功能性相互作用在进化史中得到了巩固,进化史完善了最佳效应器曲目,从而提高了嗜肺病毒的毒力。
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来源期刊
Cellular Microbiology
Cellular Microbiology 生物-微生物学
CiteScore
9.70
自引率
0.00%
发文量
26
审稿时长
3 months
期刊介绍: Cellular Microbiology aims to publish outstanding contributions to the understanding of interactions between microbes, prokaryotes and eukaryotes, and their host in the context of pathogenic or mutualistic relationships, including co-infections and microbiota. We welcome studies on single cells, animals and plants, and encourage the use of model hosts and organoid cultures. Submission on cell and molecular biological aspects of microbes, such as their intracellular organization or the establishment and maintenance of their architecture in relation to virulence and pathogenicity are also encouraged. Contributions must provide mechanistic insights supported by quantitative data obtained through imaging, cellular, biochemical, structural or genetic approaches.
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