Abstract
Many Gram-negative bacterial pathogens use a type III secretion system to infect eukaryotic cells. The injection of bacterial toxins or protein effectors via this system is accomplished through a plasma membrane channel formed by two bacterial proteins, termed translocators, whose assembly and membrane-insertion mechanisms are currently unclear. Here, using purified proteins we demonstrate that the translocators PopB and PopD in Pseudomonas aeruginosa assemble heterodimers in membranes, leading to stably inserted hetero-complexes. Using site-directed fluorescence labeling with an environment-sensitive probe, we found that hydrophobic segments in PopD anchor the translocator to the membrane, but without adopting a typical transmembrane orientation. A fluorescence dual-quenching assay revealed that the presence of PopB changes the conformation adopted by PopD segments in membranes. Furthermore, analysis of PopD's interaction with human cell membranes revealed that PopD adopts a distinctive conformation when PopB is present. An N-terminal region of PopD is only exposed to the host cytosol when PopB is present. We conclude that PopB assists with the proper insertion of PopD in cell membranes, required for the formation of a functional translocon and host infection.
Highlights
Many Gram-negative bacterial pathogens use a type III secretion system to infect eukaryotic cells
The T3S system consists of a multimeric protein complex that can be divided into four major structural elements: (i) a cytosolic platform that delivers and sorts proteins to be secreted, (ii) a basal body that spans the two bacterial membranes and the periplasmic space, (iii) a hollow needle that extends more than 50 nm from the surface of the outer membrane, and (iv) a translocon complex that is required for protein translocation across the target cell plasma membrane
Protonation of acidic residues in PopD showed a second potential transmembrane segment We have shown that the association of purified PopB and PopD with liposomal membranes was facilitated by incubations at acidic pH
Summary
Using purified proteins we demonstrate that the translocators PopB and PopD in Pseudomonas aeruginosa assemble heterodimers in membranes, leading to stably inserted hetero-complexes. The T3S system consists of a multimeric protein complex that can be divided into four major structural elements: (i) a cytosolic platform that delivers and sorts proteins to be secreted, (ii) a basal body that spans the two bacterial membranes and the periplasmic space, (iii) a hollow needle that extends more than 50 nm from the surface of the outer membrane, and (iv) a translocon complex that is required for protein translocation across the target cell plasma membrane. PopB and PopD yl-sn-glycero-3-phosphocholine; POPS, 1-palmitoyl-2-oleoyl-sn-glycero-3phospho-L-serine; rPFO, Cys-less derivative of perfringolysin O; PSPC, 1-palmitoyl-2-stearoyl-sn-glycero-3-phosphocholine
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