Identification of Specific Sequence Motif of YopN of Yersinia Pseudotuberculosis Required for Systemic Infection

Overview

Journal Virulence

Specialty Microbiology

Date 2018 Nov 30

PMID 30488778

Citations 1

Authors

Sarp Bamyaci

Roland Nordfelth

Ake Forsberg

Affiliations

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Abstract

Type III secretion systems (T3SSs) are tightly regulated key virulence mechanisms shared by many Gram-negative pathogens. YopN, one of the substrates, is also crucial in regulation of expression, secretion and activation of the T3SS of pathogenic Yersinia species. Interestingly, YopN itself is also targeted into host cells but so far no activity or direct role for YopN inside host cells has been described. Recently, we were able show that the central region of YopN is required for efficient translocation of YopH and YopE into host cells. This was also shown to impact the ability of Yersinia to block phagocytosis. One difficulty in studying YopN is to generate mutants that are not impaired in regulation of the T3SS. In this study we extended our previous work and were able to generate specific mutants within the central region of YopN. These mutants were predicted to be crucial for formation of a putative coiled-coil domain (CCD). Similar to the previously described deletion mutant of the central region, these mutants were all impaired in translocation of YopE and YopH. Interestingly, these YopN variants were not translocated into host cells. Importantly, when these mutants were introduced in cis on the virulence plasmid, they retained full regulatory function of T3SS expression and secretion. This allowed us to evaluate one of the mutants, yopN, in the systemic mouse infection model. Using in vivo imaging technology we could verify that the mutant was also attenuated in vivo and highly impaired to establish systemic infection.

Citing Articles

The gatekeeper of Yersinia type III secretion is under RNA thermometer control.

Pienkoss S, Javadi S, Chaoprasid P, Nolte T, Twittenhoff C, Dersch P PLoS Pathog. 2021; 17(11):e1009650.

PMID: 34767606 PMC: 8612567. DOI: 10.1371/journal.ppat.1009650.

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