QstR-dependent regulation of natural competence and type VI secretion in Vibrio cholerae

Jaskólska, Milena; Stutzmann, Sandrine; Stoudmann, Candice; Blokesch, Melanie

doi:10.1093/nar/gky717

Cited by 54 publications

(82 citation statements)

References 66 publications

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“…1F). Notably, comEA expression in V. cholerae is regulated by an intermediate transcription factor, QstR, which is dependent on the production of both TfoX and HapR (Lo Scrudato and Blokesch, 2013;Jaskólska et al, 2018). HapR is the master regulator of the QS system, meaning that comEA expression is dependent on a functional QS system and on high cell density.…”

Section: Functionality Of Tfox and Tfoy Homologues From Other Vibrio mentioning

confidence: 99%

“…We, therefore, speculate that an increase in LitR levels can compensate for the lack of the intermediate regulator QstR in V. fischeri. Indeed, the QstR protein of V. cholerae is required for competence-mediated DNA uptake in two ways: (i) through direct and indirect induction of certain competence genes, such as comEA, as described above; and (ii) due to its ability to downregulate the dns gene (Lo Scrudato and Blokesch, 2013;Jaskólska et al, 2018) encoding for the extracellular nuclease Dns, which degrades transforming material outside the cell and within the periplasmic space (Blokesch and Schoolnik, 2008;Seitz and Blokesch, 2014). Notably, the HapR protein of V. cholerae also silences dns expression, but only partially in the absence of QstR (Lo Scrudato and Blokesch, 2013).…”

Section: Functionality Of Tfox and Tfoy Homologues From Other Vibrio mentioning

confidence: 99%

“…first diluted the cells to low densities. The rationale behind our experimental setup was the knowledge that the TfoXmediated pathway requires co-induction by HapR in V. cholerae (homologues are LuxR in V. alginolyticus and OpaR in V. parahaemolyticus) (Lo Scrudato and Blokesch, 2012;Jaskólska et al, 2018), which we assumed to be a conserved feature in other Vibrio species (see data below). In addition to T6SS activation, we also tested the level of competence genes transcripts and bacterial motility upon TfoX and TfoY induction.…”

Section: Functionality Of Tfox and Tfoy Homologues From Other Vibrio mentioning

confidence: 99%

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Ecological implications of gene regulation by TfoX and TfoY among diverse Vibrio species

Metzger

Matthey

Stoudmann

et al. 2019

Environmental Microbiology

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Summary Bacteria of the genus Vibrio are common members of aquatic environments where they compete with other prokaryotes and defend themselves against grazing predators. A macromolecular protein complex called the type VI secretion system (T6SS) is used for both purposes. Previous research showed that the sole T6SS of the human pathogen V. cholerae is induced by extracellular (chitin) or intracellular (low c‐di‐GMP levels) cues and that these cues lead to distinctive signalling pathways for which the proteins TfoX and TfoY serve as master regulators. In this study, we tested whether the TfoX‐ and TfoY‐mediated regulation of T6SS, concomitantly with natural competence or motility, was conserved in non‐cholera Vibrio species, and if so, how these regulators affected the production of individual T6SSs in double‐armed vibrios. We show that, alongside representative competence genes, TfoX regulates at least one T6SS in all tested Vibrio species. TfoY, on the other hand, fostered motility in all vibrios but had a more versatile T6SS response in that it did not foster T6SS‐mediated killing in all tested vibrios. Collectively, our data provide evidence that the TfoX‐ and TfoY‐mediated signalling pathways are mostly conserved in diverse Vibrio species and important for signal‐specific T6SS induction.

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Section: Functionality Of Tfox and Tfoy Homologues From Other Vibrio mentioning

confidence: 99%

Section: Functionality Of Tfox and Tfoy Homologues From Other Vibrio mentioning

confidence: 99%

Section: Functionality Of Tfox and Tfoy Homologues From Other Vibrio mentioning

confidence: 99%

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Ecological implications of gene regulation by TfoX and TfoY among diverse Vibrio species

Metzger

Matthey

Stoudmann

et al. 2019

Environmental Microbiology

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“…1F). Notably, comEA expression in V. cholerae is regulated by an intermediate 192 transcription factor, QstR, which is dependent on the production of both TfoX and HapR (Lo 193 Scrudato and Blokesch, 2013; Jaskólska et al, 2018). HapR is the master regulator of the QS 194 system, meaning that comEA expression is dependent on a functional QS system and on high cell 195 density.…”

Section: Functionality Of Tfox and Tfoy Homologs From Other Vibrio Spmentioning

confidence: 99%

Conserved type VI secretion regulation in diverseVibriospecies by the regulatory proteins TfoX and TfoY

Metzger

Matthey

Stoudmann

et al. 2018

Preprint

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Originality-Significance Statement 18This work provides new insight into the regulatory circuits involved in type VI secretion in 19 diverse Vibrio species. Specifically, it is the first study to compare the effects of the two 20 regulatory proteins TfoX and TfoY on the primary or secondary type VI secretion systems of 21 non-cholera vibrios. Importantly, this work also shows that decreased c-di-GMP levels in V. 22 parahaemolyticus lead to TfoY production without changing tfoY transcript levels, thereby 23 indirectly linking TfoY production to surface sensing. 24 -2 - Summary 25Bacteria of the genus Vibrio are common members of aquatic environments where they compete 26 with other prokaryotes and defend themselves against grazing predators. A macromolecular 27 protein complex called the type VI secretion system (T6SS) is used for both purposes. Previous 28 research showed that the sole T6SS of the human pathogen V. cholerae is induced by 29 extracellular (chitin) or intracellular (low c-di-GMP levels) cues and that these cues lead to 30 distinctive signalling pathways for which the proteins TfoX and TfoY serve as master regulators. 31In this study, we tested whether the TfoX-and TfoY-mediated regulation of T6SS was conserved 32 in non-cholera species, and if so, how these regulators affected the production of individual 33T6SSs in double-armed vibrios. We show that, alongside representative competence genes, TfoX 34 regulates at least one T6SS in all tested Vibrio species. TfoY, on the other hand, fostered motility 35 in all vibrios but had a more versatile T6SS response in that it did not foster T6SS-mediated 36 killing in V. fischeri while it induced both systems in V. alginolyticus. Collectively, our data 37 provide evidence that the TfoX-and TfoY-mediated signalling pathways are mostly conserved in 38 diverse Vibrio species and important for signal-specific T6SS induction. 39 -3 -

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“…Clinical strains, such as C6706 and A1552, show little T6SS activity in rich growth medium (24)(25)(26). Expression of genes encoded on the large T6SS cluster is upregulated by the QstR protein, which integrates signals from three other regulators: CytR (responding to nucleoside starvation), HapR (responding to quorum sensing signals) and TfoX (responding to chitin oligomers) (27)(28)(29)(30). By contrast, the majority of V. cholerae that have no history of human pathogenicity (referred to as environmental strains) express the T6SS constitutively in rich growth medium and can kill other bacterial cells in a contact-dependent manner (25).…”

Section: Introductionmentioning

confidence: 99%

Analysis of Vibrio cholerae genomes using a novel bioinformatic tool identifies new, active Type VI Secretion System gene clusters

Crisan¹,

Chande²,

Williams³

et al. 2019

Preprint

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Background: Like many bacteria, Vibrio cholerae, which causes fatal cholera, deploys a harpoon-like Type VI Secretion System (T6SS) to compete against other microbes in environmental and host settings. The T6SS punctures adjacent cells and delivers toxic effector proteins that are harmless to bacteria carrying cognate immunity factors. Only four effector/immunity pairs encoded on one large and three auxiliary gene clusters have been characterized from largely clonal, patient-derived strains of V. cholerae. Results:We sequenced two dozen V. cholerae strain genomes from diverse sources and developed a novel and adaptable bioinformatic tool based on Hidden Markov Models. We identified two new T6SS auxiliary gene clusters; one, Aux 5, is described here. Four Aux 5 loci are present in the host strain, each with an atypical effector/immunity gene organization. Structural prediction of the putative effector indicated it is a lipase, which we name TleV1 (Type VI lipase effector Vibrio, TleV1). Ectopic TleV1 expression induced toxicity in E. coli, which was rescued by co-expression of the TleV1 immunity factor. A clinical V. cholerae reference strain expressing the Aux 5 cluster used TleV1 to lyse its parental strain upon contact via its T6SS but was unable to kill parental cells expressing TleV1's immunity factor. Conclusion:We developed a novel bioinformatic method and identified new T6SS gene clusters in V. cholerae. We also showed the TleV1 toxin is delivered in a T6SS-manner by V. cholerae and can lyse other bacterial cells. Our web-based tool may be modified to identify additional novel T6SS genomic loci in diverse bacterial species.

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QstR-dependent regulation of natural competence and type VI secretion in Vibrio cholerae

Cited by 54 publications

References 66 publications

Ecological implications of gene regulation by TfoX and TfoY among diverse Vibrio species

Ecological implications of gene regulation by TfoX and TfoY among diverse Vibrio species

Conserved type VI secretion regulation in diverseVibriospecies by the regulatory proteins TfoX and TfoY

Analysis of Vibrio cholerae genomes using a novel bioinformatic tool identifies new, active Type VI Secretion System gene clusters

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