Abstract
Yersinia pestis is a facultative intracellular pathogen that causes the disease known as plague. During infection of macrophages Y. pestis actively evades the normal phagosomal maturation pathway to establish a replicative niche within the cell. However, the mechanisms used by Y. pestis to subvert killing by the macrophage are unknown. Host Rab GTPases are central mediators of vesicular trafficking and are commonly targeted by bacterial pathogens to alter phagosome maturation and killing by macrophages. Here we demonstrate for the first time that host Rab1b is required for Y. pestis to effectively evade killing by macrophages. We also show that Rab1b is specifically recruited to the Yersinia containing vacuole (YCV) and that Y. pestis is unable to subvert YCV acidification when Rab1b expression is knocked down in macrophages. Furthermore, Rab1b knockdown also altered the frequency of association between the YCV with the lysosomal marker Lamp1, suggesting that Rab1b recruitment to the YCV directly inhibits phagosome maturation. Finally, we show that Rab1b knockdown also impacts the pH of the Legionella pneumophila containing vacuole, another pathogen that recruits Rab1b to its vacuole. Together these data identify a novel role for Rab1b in the subversion of phagosome maturation by intracellular pathogens and suggest that recruitment of Rab1b to the pathogen containing vacuole may be a conserved mechanism to control vacuole pH.
Highlights
Yersinia pestis is a facultative intracellular pathogen and causative agent of the disease known as plague
We demonstrate that siRNA knockdown of Rab1b in macrophages infected with Y. pestis significantly increases Yersinia containing vacuole (YCV) acidification and association with the lysosomal marker Lamp1, resulting in decreased intracellular survival of Y. pestis
Since Y. pestis exists within a vacuolar compartment within macrophages [5, 11, 14], and Rab1 has been linked to survival of several other intracellular pathogens that exist within vacuoles [39, 40, 43,44,45,46, 48], we sought to determine if Rab1 is required for Y. pestis intracellular survival
Summary
Yersinia pestis is a facultative intracellular pathogen and causative agent of the disease known as plague. Y. pestis can infect humans either through the bite of an infected flea or inhalation of contaminated aerosols. Flea inoculation can lead to the development of bubonic plague, a form of plague highlighted by bacterial dissemination to, and replication within, lymph nodes [1]. Inhalation of Y. pestis contaminated aerosols can result in rapid colonization of the lungs and development of pneumonic plague [1]. Both forms of plague are associated with acute disease progression and high mortality rates in the absence of timely antibiotic treatment. The potential for person-to-person transmission and use as a biological weapon in the absence of a vaccine highlights the risks associated with this pathogen [3]
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