Abstract
Type III protein secretion systems (T3SS) deliver effector proteins from the Gram-negative bacterial cytoplasm into a eukaryotic host cell through a syringe-like, multi-protein nanomachine. Cytosolic components of T3SS include a portion of the export apparatus, which traverses the inner membrane and features the opening of the secretion channel, and the sorting complex for substrate recognition and for providing the energetics required for protein secretion. Two components critical for efficient effector export are the export gate protein and the ATPase, which are proposed to be linked by the central stalk protein of the ATPase. We present the structure of the soluble export gate homo-nonamer, CdsV, in complex with the central stalk protein, CdsO, of its cognate ATPase, both derived from Chlamydia pneumoniae. This structure defines the interface between these essential T3S proteins and reveals that CdsO engages the periphery of the export gate that may allow the ATPase to catalyze an opening between export gate subunits to allow cargo to enter the export apparatus. We also demonstrate through structure-based mutagenesis of the homologous export gate in Pseudomonas aeruginosa that mutation of this interface disrupts effector secretion. These results provide novel insights into the molecular mechanisms governing active substrate recognition and translocation through a T3SS.
Highlights
Bacterial pathogens secrete toxins and other effectors to promote virulence by subverting host processes and defenses through the evolution of specialized secretion systems
This work describes the molecular architecture of two essential components of a T3SS, identifies the interface between the components, and establishes the necessity of this interaction for effector secretion
The crystallized protein contains residues 345–710 of CdsV from Chlamydia pneumoniae; several N- and C-terminal residues from most monomers could not be resolved from electron density difference maps
Summary
Bacterial pathogens secrete toxins and other effectors to promote virulence by subverting host processes and defenses through the evolution of specialized secretion systems Structure of the Type III secretion system export gate with CdsO. Use of the LS-CAT Sector 21 was supported by the Michigan Economic Development Corporation and the Michigan Technology TriCorridor (Grant 085P1000817). This work used NE-CAT beamline 24-ID-C (GM124165) with a Pilatus detector (RR029205). Molecular graphics and analysis of cryo-EM maps were performed with UCSF Chimera, developed by the Resource for Biocomputing, Visualization, and Informatics at UCSF, with support from NIH P41-GM103311. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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