The protein SdhA maintains the integrity of the Legionella-containing vacuole.

Legionella pneumophila directs the formation of a specialized vacuole within host cells, dependent on protein substrates of the Icm/Dot translocation system. Survival of the host cell is essential for intracellular replication of L. pneumophila. Strains lacking the translocated substrate SdhA are defective for intracellular replication and activate host cell death pathways in primary macrophages. To understand how SdhA promotes evasion of death pathways, we performed a mutant hunt to identify bacterial suppressors of the ΔsdhA growth defect. We identified the secreted phospholipase PlaA as key to activation of death pathways by the ΔsdhA strain. Based on homology between PlaA and SseJ, a Salmonella protein associated with vacuole degradation, we determined the roles of SdhA and PlaA in controlling vacuole integrity. In the absence of sdhA, the Legionella-containing vacuole was unstable, resulting in access to the host cytosol. Both vacuole disruption and host cell death were largely dependent on PlaA. Consistent with these observations, the ΔsdhA strain colocalized with galectin-3, a marker of vacuole rupture, in a PlaA-dependent process. Access of ΔsdhA strains to the macrophage cytosol triggered multiple responses in the host cell, including degradation of bacteria, induction of the type I IFN response, and activation of inflammasomes. Therefore, we have demonstrated that the Legionella-containing vacuole is actively stabilized by the SdhA protein during intracellular replication. This vacuolar niche affords the bacterium protection from cytosolic host factors that degrade bacteria and initiate immune responses.