The Machinery at Endoplasmic Reticulum-Plasma Membrane Contact Sites Contributes to Spatial Regulation of Multiple Legionella Effector Proteins

The dot/icm system of the intracellular pathogen legionella pneumophila has the capacity to deliver over 270 effector proteins into host cells during infection. important questions remain as to spatial and temporal mechanisms used to regulate such a large array of virulence determinants after they have been delivered into host cells. here we investigated several l. pneumophila effector proteins that contain a conserved phosphatidylinositol-4-phosphate (pi4p)-binding domain first described in the effector drra (sidm). this pi4p binding domain was essential for the localization of effectors to the early l. pneumophila-containing vacuole (lcv),and drra-mediated recruitment of rab1 to the lcv required pi4p-binding activity. it was found that the host cell machinery that regulates sites of contact between the plasma membrane (pm) and the endoplasmic reticulum (er) modulates pi4p dynamics on the lcv to control localization of these effectors. specifically,phosphatidylinositol-4-kinase iiiα (pi4kiiiα) was important for generating a pi4p signature that enabled l. pneumophila effectors to localize to the pm-derived vacuole,and the er-associated phosphatase sac1 was involved in metabolizing the pi4p on the vacuole to promote the dissociation of effectors. a defect in l. pneumophila replication in macrophages deficient in pi4kiiiα was observed,highlighting that a pm-derived pi4p signature is critical for biogenesis of a vacuole that supports intracellular multiplication of l. pneumophila. these data indicate that pi4p metabolism by enzymes controlling pm-er contact sites regulate the association of l. pneumophila effectors to coordinate early stages of vacuole biogenesis. © 2014 hubber et al.