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Published November 1, 2018 | Supplemental Material + Accepted Version
Journal Article Open

Programmed Secretion Arrest and Receptor-Triggered Toxin Export during Antibacterial Contact-Dependent Growth Inhibition

Ruhe, Zachary C.
Subramanian, Poorna
Song, Kiho
Nguyen, Josephine Y.
Stevens, Taylor A.
Low, David A.
Jensen, Grant J. ORCID icon
Hayes, Christopher S.

Abstract

Contact-dependent growth inhibition (CDI) entails receptor-mediated delivery of CdiA-derived toxins into Gram-negative target bacteria. Using electron cryotomography, we show that each CdiA effector protein forms a filament extending ∼33 nm from the cell surface. Remarkably, the extracellular filament represents only the N-terminal half of the effector. A programmed secretion arrest sequesters the C-terminal half of CdiA, including the toxin domain, in the periplasm prior to target-cell recognition. Upon binding receptor, CdiA secretion resumes, and the periplasmic FHA-2 domain is transferred to the target-cell outer membrane. The C-terminal toxin region of CdiA then penetrates into the target-cell periplasm, where it is cleaved for subsequent translocation into the cytoplasm. Our findings suggest that the FHA-2 domain assembles into a transmembrane conduit for toxin transport into the periplasm of target bacteria. We propose that receptor-triggered secretion ensures that FHA-2 export is closely coordinated with integration into the target-cell outer membrane.

Additional Information

© 2018 Elsevier. Received 2 May 2018, Revised 31 July 2018, Accepted 5 September 2018, Available online 1 November 2018. We thank Chuan Hong, Rick Huang, and Zhiheng Yu at the HHMI Janelia CryoEM Facility for help with the Titan Krios microscope operation and data collection and Thomas Silhavy for providing antisera. This work was supported by grants GM117930 (C.S.H.) and GM122588 (G.J.J.) from National Institutes of Health and grant MCB 1545720 (C.S.H. and D.A.L.) from the National Science Foundation. Author Contributions: Conceptualization, Z.C.R. and C.S.H.; Methodology, Z.C.R., K.S., and P.S.; Validation, K.S., J.Y.N., and T.A.S.; Investigation, Z.C.R., P.S., K.S., and J.Y.N.; Writing – Original Draft, Z.C.R. and C.S.H.; Writing – Review & Editing, D.A.L., G.J.J., and C.S.H.; Visualization, Z.C.R., K.S., P.S., and C.S.H.; Funding Acquisition, D.A.L., G.J.J., and C.S.H.; Supervision, D.A.L., G.J.J., and C.S.H. Data and Software Availability: Individual fluorescent channel data for all immunoblots and the I-TASSER server output for FHA-2 structure predictions are available at https://doi.org/10.17632/hrbmtfv754.1. The authors declare no competing interests.

Attached Files

Accepted Version - nihms-1510034.pdf

Supplemental Material - 1-s2.0-S0092867418313862-mmc1.pdf

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Additional details

Identifiers Funding Dates
Created:
August 22, 2023
Modified:
October 19, 2023