Abstract
To subvert host defenses, Mycobacterium tuberculosis (Mtb) avoids being delivered to degradative phagolysosomes in macrophages by arresting the normal host process of phagosome maturation. Phagosome maturation arrest by Mtb involves multiple effectors and much remains unknown about this important aspect of Mtb pathogenesis. The SecA2 dependent protein export system is required for phagosome maturation arrest and consequently growth of Mtb in macrophages. To better understand the role of the SecA2 pathway in phagosome maturation arrest, we identified two effectors exported by SecA2 that contribute to this process: the phosphatase SapM and the kinase PknG. Then, utilizing the secA2 mutant of Mtb as a platform to study effector functions, we identified specific steps in phagosome maturation inhibited by SapM and/or PknG. By identifying a histidine residue that is essential for SapM phosphatase activity, we confirmed for the first time that the phosphatase activity of SapM is required for its effects on phagosome maturation in macrophages. We further demonstrated that SecA2 export of SapM and PknG contributes to the ability of Mtb to replicate in macrophages. Finally, we extended our understanding of the SecA2 pathway, SapM, and PknG by revealing that their contribution goes beyond preventing Mtb delivery to mature phagolysosomes and includes inhibiting Mtb delivery to autophagolysosomes. Together, our results revealed SapM and PknG to be two effectors exported by the SecA2 pathway of Mtb with distinct as well as cumulative effects on phagosome and autophagosome maturation. Our results further reveal that Mtb must have additional mechanisms of limiting acidification of the phagosome, beyond inhibiting recruitment of the V-ATPase proton pump to the phagosome, and they indicate differences between effects of Mtb on phagosome and autophagosome maturation.
Highlights
In 2015, 1.8 million deaths were attributed to infection with Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis [1]
We further demonstrated that SecA2 export of both SapM and PknG contributes to the ability of Mtb to replicate in macrophages
With the goal of understanding the contribution of SecA2 to phagosome maturation arrest by Mtb, we tested the possibility that the SapM phosphatase is exported by the SecA2 pathway
Summary
In 2015, 1.8 million deaths were attributed to infection with Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis [1]. The gaps in our understanding are partly due to redundancy among effectors and the potential for effectors to have functions in other aspects of Mtb pathogenesis or physiology beyond phagosome maturation arrest [8,11,12,13,14,15,16]. These features of effectors make it difficult to study the contribution of individual effectors to phagosome maturation arrest using loss of function mutants
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