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A new contact killing toxin permeabilizes cells and belongs to a large protein family

Authors :
Brian K. Hammer
Peter Yunker
Gabi Steinbach
Cristian V. Crisan
Harshini Chandrashekar
Lieberman Rr
Everly C
Shannon E. Hill
Publication Year :
2021
Publisher :
Cold Spring Harbor Laboratory, 2021.

Abstract

Vibrio cholerae is an aquatic Gram-negative bacterium that causes severe diarrheal cholera disease when ingested by humans. To eliminate competitor cells in both the external environment and inside hosts, V. cholerae uses the Type VI Secretion System (T6SS). The T6SS is a macromolecular weapon employed by many Gram-negative bacteria to deliver cytotoxic proteins into adjacent cells. In addition to canonical T6SS gene clusters encoded by all sequenced V. cholerae isolates, strain BGT49 encodes an additional locus, which we named auxiliary cluster 4 (Aux 4). The Aux 4 cluster is located on a mobile genetic element and can be used by killer cells to eliminate both V. cholerae and Escherichia coli cells in a T6SS-dependent manner. A putative toxin encoded in the cluster, which we name TpeV (Type VI Permeabilizing Effector Vibrio), shares no homology to known proteins and does not contain motifs or domains indicative of function. Ectopic expression of TpeV in the periplasm of E. coli permeabilizes cells and disrupts the membrane potential. Using confocal microscopy, we confirm that susceptible target cells become permeabilized when competed with killer cells harboring the Aux 4 cluster. We also determine that tpiV, the gene located immediately downstream of tpeV, encodes an immunity protein that neutralizes the toxicity of TpeV. Finally, we show that TpeV homologs are broadly distributed across important animal and plant pathogens and are localized in proximity to other T6SS genes. Our results suggest that TpeV is a toxin that belongs to a large family of T6SS proteins.IMPORTANCEBacteria live in polymicrobial communities where competition for resources and space is essential for survival. Proteobacteria use the T6SS to eliminate neighboring cells and cause disease. However, the mechanisms by which many T6SS toxins kill or inhibit susceptible target cells are poorly understood. The sequence of the TpeV toxin we describe here is unlike any previously described protein. We demonstrate that it has antimicrobial activity by permeabilizing cells, eliminating membrane potentials and causing severe cytotoxicity. TpeV homologs are found near known T6SS genes in human, animal and plant bacterial pathogens, indicating that the toxin is a representative member of a broadly distributed protein family. We propose that TpeV-like toxins contribute to the fitness and pathogenicity of many bacteria. Finally, since antibiotic resistance is a critical global health threat, the discovery of new antimicrobial mechanisms could lead to the development of new treatments against resistant strains.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........9465c9dfaef6c1dcf1b5c1338c37440b
Full Text :
https://doi.org/10.1101/2021.03.31.437997