Anastasia P. Tampakaki scite author profile

SummaryThe transcriptional regulator MvfR is required for full Pseudomonas aeruginosa virulence, the function of multiple quorum sensing (QS)-regulated virulence factors and the synthesis of 4-hydroxy-2-alkylquinolines (HAQs), including the Pseudomonas quinolone signal (PQS). Here we investigate the role of MvfR in the QS circuitry and P. aeruginosa pathogenesis. We demonstrate using a combination of biochemical and molecular approaches, including transcription profiling, that MvfR is involved in the regulation of multiple P. aeruginosa QS-controlled genes without altering the expression of lasRI / rhlRI or the production of Nacyl-L -homoserine lactone (AHL) signals. Dissection of how mvfR is interwoven into the P. aeruginosa QS circuitry reveals that the MvfR system, through the essential contribution of PqsE, positively regulates a subset of genes dependant on both LasR and RhlR. Animal studies show that MvfR contributes to P. aeruginosa virulence by controlling the transcription of genes not under RhlR regulation, and that reduced virulence of a mvfR mutant is caused by the loss of pqsE expression and not only a deficiency in HAQs/PQS production. This study provides novel insights into the unique role of the MvfR system in AHL-mediated QS and further supports its importance in P. aeruginosa pathogenesis.

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MvfR, a key Pseudomonas aeruginosa pathogenicity LTTR‐class regulatory protein, has dual ligands

Xiao

Déziel

et al. 2006

Molecular Microbiology

276

363

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SummaryMvfR (PqsR), a Pseudomonas aeruginosa LysR-type transcriptional regulator, plays a critical role in the virulence of this pathogen. MvfR modulates the expression of multiple quorum sensing (QS)-regulated virulence factors; and the expression of the phnAB and pqsA-E genes that encode functions mediating 4-hydroxy-2-alkylquinolines (HAQs) signalling compounds biosynthesis, including 3,4-dihydroxy-2-heptylquinoline (PQS) and its precursor 4-hydroxy-2-heptylquinoline (HHQ). PQS enhances the in vitro DNA-binding affinity of MvfR to the pqsA-E promoter, to suggest it might function as the in vivo MvfR ligand. Here we identify a novel MvfR ligand, as we show that HHQ binds to the MvfR ligand-binding-domain and potentiates MvfR binding to the pqsA-E promoter leading to transcriptional activation of pqsA-E genes. We show that HHQ is highly produced in vivo, where it is not fully converted into PQS, and demonstrate that it is required for MvfR-dependent gene expression and pathogenicity; PQS is fully dispensable, as pqsHmutant cells, which produce HHQ but completely lack PQS, display normal MvfR-dependent gene expression and virulence. Conversely, PQS is required for full production of pyocyanin. These results uncover a novel biological role for HHQ; and provide novel insights on MvfR activation that may aid in the development of therapies that prevent or treat P. aeruginosa infections in humans.

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Anastasia P. Tampakaki

The contribution of MvfR to Pseudomonas aeruginosa pathogenesis and quorum sensing circuitry regulation: multiple quorum sensing‐regulated genes are modulated without affecting lasRI, rhlRI or the production of N‐acyl‐ l‐homoserine lactones

MvfR, a key Pseudomonas aeruginosa pathogenicity LTTR‐class regulatory protein, has dual ligands

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