<p>(A) Western blot analysis of Hcp1 from different <i>P. aeruginosa</i> CF and non-CF strains. The cytoplasmic RpoA protein is used as a loading marker. (B) β-galactosidase activities measured at... more
<p>(A) Western blot analysis of Hcp1 from different <i>P. aeruginosa</i> CF and non-CF strains. The cytoplasmic RpoA protein is used as a loading marker. (B) β-galactosidase activities measured at <i>A</i><sub>600</sub> of 1.5 from PAO1 and CHA strains containing either a transcriptional or translational <i>pfha1</i>-<i>lacZ</i> fusions, as indicated. The bars indicate the standard deviations.</p
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Pseudomonas aeruginosa is a major cause of nosocomial infections, particularly in immunocompromised patients or in individuals with cystic fibrosis. Genome sequences reveal that most P. aeruginosa strains contain a significant number of... more
Pseudomonas aeruginosa is a major cause of nosocomial infections, particularly in immunocompromised patients or in individuals with cystic fibrosis. Genome sequences reveal that most P. aeruginosa strains contain a significant number of accessory genes gathered in genomic islands. Those genes are essential for P. aeruginosa to invade new ecological niches with high levels of antibiotic usage, like hospitals, or to survive during host infection by providing pathogenicity determinants. P. aeruginosa pathogenicity island 1 (PAPI-1), one of the largest genomic islands, encodes several putative virulence factors, including toxins, biofilm genes and antibiotic-resistance traits. The integrative and conjugative element (ICE) PAPI-1 is horizontally transferable by conjugation via a specialized GI-T4SS, but the mechanism regulating this transfer is currently unknown. Here, we show that this GI-T4SS conjugative machinery is directly induced by TprA, a regulator encoded within PAPI-1. Our data...
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<p>(A) For transphosphorylation assay between LadS or GacS variants and GacSH2 variants or HptA protein, 2 mM of LadSH1D1 or LadSH1D1<sub>D→A</sub> recombinant proteins were incubated with [γ-<sup>32</sup>P]... more
<p>(A) For transphosphorylation assay between LadS or GacS variants and GacSH2 variants or HptA protein, 2 mM of LadSH1D1 or LadSH1D1<sub>D→A</sub> recombinant proteins were incubated with [γ-<sup>32</sup>P] ATP and GacSH2 (lanes 1 and 2), GacSH2<sub>H→Q</sub> (lanes 3 and 4) or HptA (lanes 5 and 6) at room temperature for 20 min (see <a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1006032#sec010" target="_blank">Materials and Methods</a>) then separated in an SDS-polyacrylamide gel in duplicate. (B) Transphosphorylation assay between the LadSH1D1<sub>D→A</sub> or GacSH1 and LadSD1 or GacsD1 domains with or without the GacSH2 domain. Two mM of LadSD1 or GacSD1 recombinant proteins were incubated with [γ-<sup>32</sup>P] ATP and LadSH1D1<sub>D→A</sub> or GacSH1 (left panel<b>)</b> together with the GacSH2 domain (right panel) at room temperature for 20 min. In both experiments mixtures of proteins were separated in an SDS-polyacrylamide gel in duplicate. Numbers on the left side are molecular weight standards (kDa). Locations of the recombinant proteins are indicated by arrowheads. For each experiment presented in panels A and B, one gel was detected by western blot using an anti-penta-His antibody (upper panel) while the other was autoradiographied (lower panel).</p
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We have isolated three Shewanella oneidensis mutants specifically impaired in trimethylamine oxide (TMAO) respiration. The mutations arose from insertions of an ISSo 2 element into torA , torR , and torS , encoding, respectively, the TMAO... more
We have isolated three Shewanella oneidensis mutants specifically impaired in trimethylamine oxide (TMAO) respiration. The mutations arose from insertions of an ISSo 2 element into torA , torR , and torS , encoding, respectively, the TMAO reductase TorA, the response regulator TorR, and the sensor TorS. Although TorA is not the sole enzyme reducing TMAO in S. oneidensis , growth analysis showed that it is the main respiratory TMAO reductase. Use of a plasmid-borne torE ′- lacZ fusion confirmed that the TorS-TorR phosphorelay mediates TMAO induction of the torECAD operon.
Research Interests: Bacteriology, Biology, Transcription Factors, Medicine, Signal Transduction, and 12 moreBiological Sciences, Mutation, Escherichia coli, Enzyme, Respiratory System, Base Sequence, Protein Binding, Oxygen Consumption, Shewanella, Volatile Compounds, Molecular Sequence Data, and Medical and Health Sciences
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c-di-GMP is a major player in the switch between biofilm and motile lifestyles. Several bacteria exhibit a large number of c-di-GMP metabolizing proteins, thus a fine-tuning of this nucleotide levels may occur. It is hypothesized that... more
c-di-GMP is a major player in the switch between biofilm and motile lifestyles. Several bacteria exhibit a large number of c-di-GMP metabolizing proteins, thus a fine-tuning of this nucleotide levels may occur. It is hypothesized that some c-di-GMP metabolizing proteins would provide the global c-di-GMP levels inside the cell whereas others would maintain a localized pool, with the resulting c-di-GMP acting at the vicinity of its production. Although attractive, this hypothesis has yet to be demonstrated in Pseudomonas aeruginosa. We found that the diguanylate cyclase DgcP interacts with the cytosolic region of FimV, a polar peptidoglycan-binding protein involved in type IV pilus assembly. Moreover, DgcP is located at the cell poles in wild type cells but scattered in the cytoplasm of cells lacking FimV. Overexpression of dgcP leads to the classical phenotypes of high c-di-GMP levels (increased biofilm and impaired motilities) in the wild-type strain, but not in a ΔfimV background. ...
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When overproduced, the multidrug efflux system MexEF-OprN increases the resistance of Pseudomonas aeruginosa to fluoroquinolones, chloramphenicol, and trimethoprim. In this work, we demonstrate that gain-of-function mutations in the... more
When overproduced, the multidrug efflux system MexEF-OprN increases the resistance of Pseudomonas aeruginosa to fluoroquinolones, chloramphenicol, and trimethoprim. In this work, we demonstrate that gain-of-function mutations in the regulatory gene mexT result in oligomerization of the LysR regulator MexT, constitutive upregulation of the efflux pump, and increased resistance in clinical isolates.
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c-di-GMP is a major player in the decision between biofilm and motile lifestyles. Several bacteria present a large number of c-di-GMP metabolizing proteins, thus a fine-tuning of this nucleotide levels may occur. It is hypothesized that... more
c-di-GMP is a major player in the decision between biofilm and motile lifestyles. Several bacteria present a large number of c-di-GMP metabolizing proteins, thus a fine-tuning of this nucleotide levels may occur. It is hypothesized that some c-di-GMP metabolizing proteins would provide the global c-di-GMP levels inside the cell whereas others would maintain a localized pool, with the resulting c-di-GMP acting at the vicinity of its production. Although attractive, this hypothesis was yet to be proven in Pseudomonas aeruginosa . We found that the diguanylate cyclase DgcP interacts with the cytosolic region of FimV, a peptidoglycan-binding protein involved in type IV pilus assembly. Moreover, DgcP is located at the cell poles in wild type cells, but scattered in the cytoplasm of cells lacking FimV. Overexpression of DgcP leads to the classical phenotypes of high c-di-GMP levels (increased biofilm and impaired motilities) in the wild-type strain, but not in a Δ fimV background. Therefo...
Pseudomonas aeruginosa is a Gram-negative bacterial pathogen associated with acute and chronic infections. The universal cyclic-di-GMP second messenger is instrumental in the switch from a motile lifestyle to resilient biofilm as in the... more
Pseudomonas aeruginosa is a Gram-negative bacterial pathogen associated with acute and chronic infections. The universal cyclic-di-GMP second messenger is instrumental in the switch from a motile lifestyle to resilient biofilm as in the cystic fibrosis lung. The SadC diguanylate cyclase is associated with this patho-adaptive transition. Here, we identify an unrecognized SadC partner, WarA, which we show is a methyltransferase in complex with a putative kinase, WarB. We established that WarA binds to cyclic-di-GMP, which potentiates its methyltransferase activity. Together, WarA and WarB have structural similarities with the bifunctional Escherichia coli lipopolysaccharide (LPS) O antigen regulator WbdD. Strikingly, WarA influences P. aeruginosa O antigen modal distribution and interacts with the LPS biogenesis machinery. LPS is known to modulate the immune response in the host, and by using a zebrafish infection model, we implicate WarA in the ability of P. aeruginosa to evade detec...
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Myeloablative treatment preceding hematopoietic stem cell (HSC) and progenitor cell (HS/PC) transplantation results in severe myeloid cytopenia and susceptibility to infections in the lag period before hematopoietic recovery. We have... more
Myeloablative treatment preceding hematopoietic stem cell (HSC) and progenitor cell (HS/PC) transplantation results in severe myeloid cytopenia and susceptibility to infections in the lag period before hematopoietic recovery. We have previously shown that macrophage colony-stimulating factor (CSF-1; M-CSF) directly instructed myeloid commitment in HSCs. In this study, we tested whether this effect had therapeutic benefit in improving protection against pathogens after HS/PC transplantation. M-CSF treatment resulted in an increased production of mature myeloid donor cells and an increased survival of recipient mice infected with lethal doses of clinically relevant opportunistic pathogens, namely the bacteriaPseudomonas aeruginosaand the fungusAspergillus fumigatus. M-CSF treatment during engraftment or after infection efficiently protected from these pathogens as early as 3 days after transplantation and was effective as a single dose. It was more efficient than granulocyte CSF (G-CS...
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Pseudomonas aeruginosa is a highly adaptable opportunistic pathogen. It can infect vulnerable patients such as those with cystic fibrosis or hospitalized in intensive care units where it is responsible for both acute and chronic... more
Pseudomonas aeruginosa is a highly adaptable opportunistic pathogen. It can infect vulnerable patients such as those with cystic fibrosis or hospitalized in intensive care units where it is responsible for both acute and chronic infection. The switch between these infections is controlled by a complex regulatory system involving the central GacS/GacA two-component system that activates the production of two small non-coding RNAs. GacS is a histidine kinase harboring one periplasmic detection domain, two inner-membrane helices and three H1/D1/H2 cytoplasmic domains. By detecting a yet unknown signal, the GacS histidine-kinase periplasmic detection domain (GacSp) is predicted to play a key role in activating the GacS/GacA pathway. Here, we present the chemical shift assignment of 96 % of backbone atoms (HN, N, C, Cα, Cβ and Hα), 88 % aliphatic hydrogen atoms and 90 % of aliphatic carbon atoms of this domain. The NMR-chemical shift data, on the basis of Talos server secondary structure...
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Research Interests:
Bacterial two-component regulatory systems (TCSs) sense environmental stimuli to adapt the lifestyle of microbial populations. For many TCSs the stimulus is a ligand of unknown chemical nature. Pseudomonas aeruginosa utilizes the closely... more
Bacterial two-component regulatory systems (TCSs) sense environmental stimuli to adapt the lifestyle of microbial populations. For many TCSs the stimulus is a ligand of unknown chemical nature. Pseudomonas aeruginosa utilizes the closely related RetS and LadS sensor kinases to switch between acute and chronic infections. These sensor proteins antagonistically mediate biofilm formation through communication with a central TCS, GacA/GacS. Recently, it was shown that RetS modulates the GacS sensor activity by forming RetS/GacS heterodimers. LadS and RetS are hybrid sensors with a signalling domain consisting of a 7-transmembrane (7TMR) region and a periplasmic sensor domain (diverse intracellular signalling module extracellular 2, DISMED2). The 2.65 A resolution crystal structure of RetS DISMED2, called RetSp, reveals three distinct oligomeric states capable of domain swapping. The RetSp structure also displays two putative ligand binding sites. One is equivalent to the analogous site in the structurally-related carbohydrate binding module (CBM) but the second site is located at a dimer interface. These observations highlight the modular architecture and assembly of the RetSp fold and give clues on how homodimerization of RetS could be modulated upon ligand binding to control formation of a RetS/GacS heterodimer. Modelling the DISMED2 of LadS reveals conservation of only one ligand binding site, suggesting a distinct mechanism underlying the activity of this sensor kinase.
Research Interests: Microbiology, Environmental microbiology, Protein Folding, Transcription Factors, Macromolecular X-Ray Crystallography, and 10 moreSequence alignment, Ligand Binding, Pseudomonas aeruginosa, Pseudomonas Aeruginosa, Protein Conformation, Amino Acid Sequence, Environmental, Ligands, Molecular Sequence Data, and binding sites
Although the completion and annotation of the entire genomic DNA sequence of Pseudomonas aeruginosa PAO1 strain has been carried out, an important number of genes are still of unknown function and many genetic elements involved in various... more
Although the completion and annotation of the entire genomic DNA sequence of Pseudomonas aeruginosa PAO1 strain has been carried out, an important number of genes are still of unknown function and many genetic elements involved in various regulatory pathways like small RNA are still unrevealed. One of the strategies to identify gene function or genetic elements is the construction and utilization of DNA genomic library. Here, we describe the construction a P. aeruginosa DNA genomic library.
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The trimethylamine N-oxide (TMAO) anaerobic respiratory system of Escherichia coli comprises a periplasmic terminal TMAO reductase (TorA) and a pentahaem c-type cytochrome (TorC), which is involved in electron transfer to TorA. The... more
The trimethylamine N-oxide (TMAO) anaerobic respiratory system of Escherichia coli comprises a periplasmic terminal TMAO reductase (TorA) and a pentahaem c-type cytochrome (TorC), which is involved in electron transfer to TorA. The structural proteins are encoded by the torCAD operon whose expression is induced in the presence of TMAO through the TorS/TorR two-component system. By using a genomic library cloned into a multicopy plasmid, we identified TorC as a possible negative regulator of the tor operon. Interestingly, in trans overexpression of torC not only decreased the activity of a torA&#39;-&#39;lacZ fusion, but also dramatically reduced the amount of mature TorC cytochrome. This led us to propose that, after translocation, TorC apocytochrome downregulates the tor operon unless it is properly matured. In agreement with this hypothesis, we have shown that mini-Tn10 insertions within genes involved in the c-type cytochrome maturation pathway or haem biosynthesis decreased tor operon expression. Dithiothreitol (DTT), which reduces disulphide bonds and thus prevents the first step in c-type cytochrome formation, also strongly decreases the tor promoter activity. The DTT effect is TorC dependent, as it is abolished when torC is disrupted. In contrast, overexpression of the c-type cytochrome maturation (ccm ) genes relieved the tor operon of the negative control and allowed the bacteria to produce a higher amount of TorC holocytochrome. Therefore, the TorC negative autoregulation probably means that maturation of the c-type cytochrome is a limiting step for Tor system biogenesis. Genetic experiments have provided evidence that TorC control is mediated by the TorS/TorR two-component system and different from the tor anaerobic control. In our working model, TMAO and apoTorC bind to the periplasmic side of TorS, but TMAO activates TorS autophosphorylation, whereas apoTorC inhibits the TorS kinase activity.
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Research Interests:
The trimethylamine N-oxide (TMAO) anaerobic respiratory system of Escherichia coli comprises a periplasmic terminal TMAO reductase (TorA) and a pentahaem c-type cytochrome (TorC), which is involved in electron transfer to TorA. The... more
The trimethylamine N-oxide (TMAO) anaerobic respiratory system of Escherichia coli comprises a periplasmic terminal TMAO reductase (TorA) and a pentahaem c-type cytochrome (TorC), which is involved in electron transfer to TorA. The structural proteins are encoded by the torCAD operon whose expression is induced in the presence of TMAO through the TorS/TorR two-component system. By using a genomic library cloned into a multicopy plasmid, we identified TorC as a possible negative regulator of the tor operon. Interestingly, in trans overexpression of torC not only decreased the activity of a torA&#39;-&#39;lacZ fusion, but also dramatically reduced the amount of mature TorC cytochrome. This led us to propose that, after translocation, TorC apocytochrome downregulates the tor operon unless it is properly matured. In agreement with this hypothesis, we have shown that mini-Tn10 insertions within genes involved in the c-type cytochrome maturation pathway or haem biosynthesis decreased tor operon expression. Dithiothreitol (DTT), which reduces disulphide bonds and thus prevents the first step in c-type cytochrome formation, also strongly decreases the tor promoter activity. The DTT effect is TorC dependent, as it is abolished when torC is disrupted. In contrast, overexpression of the c-type cytochrome maturation (ccm ) genes relieved the tor operon of the negative control and allowed the bacteria to produce a higher amount of TorC holocytochrome. Therefore, the TorC negative autoregulation probably means that maturation of the c-type cytochrome is a limiting step for Tor system biogenesis. Genetic experiments have provided evidence that TorC control is mediated by the TorS/TorR two-component system and different from the tor anaerobic control. In our working model, TMAO and apoTorC bind to the periplasmic side of TorS, but TMAO activates TorS autophosphorylation, whereas apoTorC inhibits the TorS kinase activity.
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Pseudomonas aeruginosa is a Gram-negative environmental species and an opportunistic microorganism, establishing itself in vulnerable patients, such as those with cystic fibrosis (CF) or those hospitalized in intensive care units (ICU).... more
Pseudomonas aeruginosa is a Gram-negative environmental species and an opportunistic microorganism, establishing itself in vulnerable patients, such as those with cystic fibrosis (CF) or those hospitalized in intensive care units (ICU). It has become a major cause of nosocomial infections worldwide and a serious threat to Public Health because of overuse and misuse of antibiotics that have selected highly resistant strains against which very few therapeutic options exist. Herein is illustrated the intraclonal evolution of the genome of sequential isolates collected in a single CF patient from the early phase of pulmonary colonization to the fatal outcome. We also examined at the whole genome scale a pair of genotypically-related strains made of a drug susceptible, environmental isolate recovered from an ICU sink and of its multidrug resistant counterpart found to infect an ICU patient. Multiple genetic changes accumulated in the CF isolates over the disease time course including SNP...
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In Pseudomonas aeruginosa, identification of new partners of a protein of interest could give precious clues to decipher a biological process in which this protein is involved. However, genes encoding for partners of a protein of interest... more
In Pseudomonas aeruginosa, identification of new partners of a protein of interest could give precious clues to decipher a biological process in which this protein is involved. However, genes encoding for partners of a protein of interest are unknown and frequently scattered throughout the genome. We describe herein the construction and the use of pan-genomic bacterial two-hybrid libraries to identify new partners of a protein of interest encoded by P. aeruginosa.
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A method for replacing endogenous promoter by a constitutive promoter in Pseudomonas aeruginosa is described. Plasmid pKNG101, a broadly used shuttle suicide vector in P. aeruginosa, was improved to allow chromosomal introduction of a... more
A method for replacing endogenous promoter by a constitutive promoter in Pseudomonas aeruginosa is described. Plasmid pKNG101, a broadly used shuttle suicide vector in P. aeruginosa, was improved to allow chromosomal introduction of a Plac promoter in front of any kind of gene especially those with unknown function. Using this strategy alleviates the need for cloning difficulties encountered in this bacteria and antibiotic marker selection.
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Bacterial gene regulation is controlled by complex regulatory cascades which integrate input environmental signals and adapt specific and adequate output cellular responses. These complex networks are far from being elucidated, in... more
Bacterial gene regulation is controlled by complex regulatory cascades which integrate input environmental signals and adapt specific and adequate output cellular responses. These complex networks are far from being elucidated, in particular in Pseudomonas aeruginosa. In the present study, we developed bacterial two-hybrid genome fragment libraries of the P. aeruginosa PAO1 strain to identify potential partners involved in the HptB/HsbR/HsbA pathway. This powerful tool, validated by the interaction previously described between HsbR and HsbA proteins, allowed us to demonstrate that the HsbR response regulator dimerizes through its PP2C/ATPase C-terminal effector domain, an observation further confirmed by pull-down experiments. This will also allow us to identify further new partners in this cascade.
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Bacterial two-component regulatory systems (TCSs) sense environmental stimuli to adapt the lifestyle of microbial populations. For many TCSs the stimulus is a ligand of unknown chemical nature. Pseudomonas aeruginosa utilizes the closely... more
Bacterial two-component regulatory systems (TCSs) sense environmental stimuli to adapt the lifestyle of microbial populations. For many TCSs the stimulus is a ligand of unknown chemical nature. Pseudomonas aeruginosa utilizes the closely related RetS and LadS sensor kinases to switch between acute and chronic infections. These sensor proteins antagonistically mediate biofilm formation through communication with a central TCS, GacA/GacS. Recently, it was shown that RetS modulates the GacS sensor activity by forming RetS/GacS heterodimers. LadS and RetS are hybrid sensors with a signalling domain consisting of a 7-transmembrane (7TMR) region and a periplasmic sensor domain (diverse intracellular signalling module extracellular 2, DISMED2). The 2.65 A resolution crystal structure of RetS DISMED2, called RetSp, reveals three distinct oligomeric states capable of domain swapping. The RetSp structure also displays two putative ligand binding sites. One is equivalent to the analogous site in the structurally-related carbohydrate binding module (CBM) but the second site is located at a dimer interface. These observations highlight the modular architecture and assembly of the RetSp fold and give clues on how homodimerization of RetS could be modulated upon ligand binding to control formation of a RetS/GacS heterodimer. Modelling the DISMED2 of LadS reveals conservation of only one ligand binding site, suggesting a distinct mechanism underlying the activity of this sensor kinase.