Distinct ecological fitness factors coordinated by a conserved
            <i>Escherichia coli</i>
            regulator during systemic bloodstream infection

O’Boyle, Nicky; Douce, Gillian; Farrell, Gillian; Rattray, Nicholas J. W.; Schembri, Mark A.; Roe, Andrew J.; Connolly, James P. R.

doi:10.1073/pnas.2212175120

Proc. Natl. Acad. Sci. U.S.A.

2022

DOI: 10.1073/pnas.2212175120

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Distinct ecological fitness factors coordinated by a conserved Escherichia coli regulator during systemic bloodstream infection

Nicky O’Boyle

Gillian Douce

Gillian Farrell

et al.

Abstract: The ability of bacterial pathogens to adapt to host niches is driven by the carriage and regulation of genes that benefit pathogenic lifestyles. Genes that encode virulence or fitness-enhancing factors must be regulated in response to changing host environments to allow rapid response to challenges presented by the host. Furthermore, this process can be controlled by preexisting transcription factors (TFs) that acquire new roles in tailoring regulatory networks, specifically in pathogens. However, the mechanis… Show more

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2024

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References 64 publications

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A master regulator of central carbon metabolism directly activates virulence gene expression in attaching and effacing pathogens

Wale,

O’Boyle,

McHugh

et al. 2024

PLoS Pathog

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The ability of the attaching and effacing pathogens enterohaemorrhagic Escherichia coli (EHEC) and Citrobacter rodentium to overcome colonisation resistance is reliant on a type 3 secretion system used to intimately attach to the colonic epithelium. This crucial virulence factor is encoded on a pathogenicity island known as the Locus of Enterocyte Effacement (LEE) but its expression is regulated by several core-genome encoded transcription factors. Here, we unveil that the core transcription factor PdhR, traditionally known as a regulator of central metabolism in response to cellular pyruvate levels, is a key activator of the LEE. Through genetic and molecular analyses, we demonstrate that PdhR directly binds to a specific motif within the LEE master regulatory region, thus activating type 3 secretion directly and enhancing host cell adhesion. Deletion of pdhR in EHEC significantly impacted the transcription of hundreds of genes, with pathogenesis and protein secretion emerging as the most affected functional categories. Furthermore, in vivo studies using C. rodentium, a murine model for EHEC infection, revealed that PdhR is essential for effective host colonization and maximal LEE expression within the host. Our findings provide new insights into the complex regulatory networks governing bacterial pathogenesis. This research highlights the intricate relationship between virulence and metabolic processes in attaching and effacing pathogens, demonstrating how core transcriptional regulators can be co-opted to control virulence factor expression in tandem with the cell’s essential metabolic circuitry.

show abstract

A master regulator of central carbon metabolism directly activates virulence gene expression in attaching and effacing pathogens

Wale,

O’Boyle,

McHugh

et al. 2024

PLoS Pathog

View full text Add to dashboard Cite

show abstract

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Distinct ecological fitness factors coordinated by a conserved Escherichia coli regulator during systemic bloodstream infection

Cited by 1 publication

References 64 publications

A master regulator of central carbon metabolism directly activates virulence gene expression in attaching and effacing pathogens

A master regulator of central carbon metabolism directly activates virulence gene expression in attaching and effacing pathogens

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