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1. Gemeingüter und soziale Ungleichheit: Konflikte zwischen Landleuten und Beisassen um kollektive Güter in der Zentralschweiz im 17. und 18. Jahrhundert

Author

Guzzi-Heeb, Sandro, Lorenzetti, Luigi, Stuber, Martin, Guzzi-Heeb, S ( Sandro ), Lorenzetti, L ( Luigi ), Stuber, M ( Martin ), Egloff, Salome, Guzzi-Heeb, Sandro, Lorenzetti, Luigi, Stuber, Martin, Guzzi-Heeb, S ( Sandro ), Lorenzetti, L ( Luigi ), Stuber, M ( Martin ), and Egloff, Salome

Abstract

Salome Egloff fragt nach den sozialen Dimensionen vormoderner Eigentumsregimes, wo sich ein beträchtlicher Teil der Ressourcen im kollektiven Besitz nachbarschaftlicher, dörflicher oder auch überkommunaler Körperschaften befand. Zum einen überlappten sich die vielfältigen Eigentums- und Nutzungsrechte, zum anderen machten die schwankenden Erträge und die sich wandelnden demografischen Verhältnisse laufende Anpassungen nötig. Bei Konflikten standen die Gerichte daher eher vor der Aufgabe, auf den Einzelfall bezogene pragmatische Lösungen zu finden, als allgemeingültige Regeln durchzusetzen.

Published
2024

2. ToxR is a c-di-GMP binding protein that modulates surface-associated behaviour in Pseudomonas aeruginosa.

Author

Dubern, J-F, Romero, M, Mai-Prochnow, A, Messina, M, Trampari, E, Gijzel, HN-V, Chan, K-G, Carabelli, AM, Barraud, N, Lazenby, J, Chen, Y, Robertson, S, Malone, JG, Williams, P, Heeb, S, Cámara, M, Dubern, J-F, Romero, M, Mai-Prochnow, A, Messina, M, Trampari, E, Gijzel, HN-V, Chan, K-G, Carabelli, AM, Barraud, N, Lazenby, J, Chen, Y, Robertson, S, Malone, JG, Williams, P, Heeb, S, and Cámara, M

Abstract

Pseudomonas aeruginosa uses multiple protein regulators that work in tandem to control the production of a wide range of virulence factors and facilitate rapid adaptation to diverse environmental conditions. In this opportunistic pathogen, ToxR was known to positively regulate the production of the major virulence factor exotoxin A and now, through analysis of genetic changes between two sublines of P. aeruginosa PAO1 and functional complementation of swarming, we have identified a previously unknown role of ToxR in surface-associated motility in P. aeruginosa. Further analysis revealed that ToxR had an impact on swarming motility by regulating the Rhl quorum sensing system and subsequent production of rhamnolipid surfactants. Additionally, ToxR was found to tightly bind cyclic diguanylate (c-di-GMP) and negatively affect traits controlled by this second messenger including reducing biofilm formation and the expression of Psl and Pel exopolysaccharides, necessary for attachment and sessile communities matrix scaffolding, in P. aeruginosa. Moreover, a link between the post-transcriptional regulator RsmA and toxR expression via the alternative sigma factor PvdS, induced under iron-limiting conditions, is established. This study reveals the importance of ToxR in a sophisticated regulation of free-living and biofilm-associated lifestyles, appropriate for establishing acute or chronic P. aeruginosa infections.

Published
2022

3. Introduction : où en est l'analyse de réseaux en histoire?

Author

Bertrand, M., Guzzi-Heeb, S., and Lemercier, C.

Subjects
lcsh:Social Sciences, lcsh:H, Histoire, Història, Xarxes socials, History, Réseaux sociaux, histoire, réseaux sociaux, Histoire –réseaux sociaux, lcsh:H1-99, lcsh:Social sciences (General), Social networks
Abstract

Le concept de réseau est aujourd'hui largement entré dans le vocabulaire des sciences sociales. En histoire, l'introduction du vocabulaire des réseaux a souvent été liée à des démarches situées à une échelle « micro » et travaillant à mettre en évidence l'agency individuelle. Depuis les années 1990, une analyse de réseaux plus formalisée a fait des apparitions épisodiques, et inégales selon les domaines linguistiques, dans d'autres travaux historiques fondés au contraire sur des observations systématiques à une échelle macro. Après 30 ans d'une intégration de la catégorie à la démarche historique, un véritable savoir-faire historien émerge autour des questionnements auxquels elle est associée et des méthodologies qu'elle implique. Cependant, si l'analyse de réseaux a déjà largement fait la preuve de son intérêt dans certains domaines spécifiques de l’histoire, il existe trop peu de dialogue entre ceux qui la pratiquent ; notre souhait, en donnant à voir les parentés et les différences entre des textes issus de pays et de sous-disciplines variés, est bien de promouvoir un tel dialogue., The concept of network has widely been adopted in the vocabulary of social sciences. Historical research using the vocabulary of networks has often been associated to a “micro” approach aiming to highlight individual agency. Since 1990, a more formalized approach to network analysis has unevenly appeared, depending on the linguistic area, in other historical research based, on the contrary, on systematic macro scale observations. After 30 years of integrating the questions and the methods of the network approach into historical research it is possible to observe the emergence of a true “savoir faire” of historians. However, although the interest of applying a network approach in certain specific domains has been largely shown, there is still little dialog among researchers who practice it. By showing the relations and the differences between texts coming from different countries and various sub-disciplines we wish to contribute to such dialogue.

Published
2021

4. Disruption of the Pseudomonas aeruginosa Tat system perturbs PQS-dependent quorum sensing and biofilm maturation through loss of the Rieske cytochrome bc1 sub-unit

Author

Soh, E.Y.-C., Smith, F., Gimenez, M.R., Yang, L., Vejborg, R.M., Fletcher, M., Halliday, N., Bleves, S., Heeb, S., Camara, M., Givskov, M., Hardie, K.R., Tolker-Nielsen, T., Ize, B., Williams, P., Soh, E.Y.-C., Smith, F., Gimenez, M.R., Yang, L., Vejborg, R.M., Fletcher, M., Halliday, N., Bleves, S., Heeb, S., Camara, M., Givskov, M., Hardie, K.R., Tolker-Nielsen, T., Ize, B., and Williams, P.

Abstract

Extracellular DNA (eDNA) is a major constituent of the extracellular matrix of Pseudomonas aeruginosa biofilms and its release is regulated via the pseudomonas quinolone signal (PQS) dependent quorum sensing (QS). By screening a P. aeruginosa transposon library to identify factors required for DNA release, mutants with insertions in the twin-arginine translocation (Tat) pathway were identified as exhibiting reduced eDNA release, and defective biofilm architecture with enhanced susceptibility to tobramycin. P. aeruginosa tat mutants showed substantial reductions in pyocyanin, rhamnolipid and membrane vesicle (MV) production consistent with perturbation of 2-heptyl-3-hydroxy-4-quinolone (PQS) dependent QS as demonstrated by changes in pqsA expression and 2-alkyl-4-quinolone (AQ) production. Provision of exogenous PQS to the tat mutants did not return pqsA, rhlA or phzA1 expression or pyocyanin production to wild type levels. However, transformation of the tat mutants with the AQ-independent pqs effector pqsE restored phzA1 expression and pyocyanin production. Since mutation or inhibition of Tat prevented PQS-driven auto-induction, we sought to identify the Tat secretion substrate responsible. A pqsA::lux fusion was introduced into each of 34 validated P. aeruginosa Tat substrate deletion mutants. Analysis of each mutant for reduced bioluminescence revealed that the signalling defect was associated with the Rieske iron-sulfur subunit of the cytochrome bc1 complex. In common with the parent strain, a Rieske mutant exhibited defective PQS signalling, AQ production, rhlA expression and eDNA release that could be restored by genetic complementation. Thus, lack of the Rieske sub-unit export is clearly responsible for the Tat-mediated perturbation of PQS-dependent QS, the loss of virulence factor production, biofilm eDNA and the tobramycin tolerance of P. aeruginosa biofilms.

Published
2021

5. Genome-wide analysis of targets for post-transcriptional regulation by Rsm proteins in Pseudomonas putida

Author

Ministerio de Ciencia e Innovación (España), European Commission, Biotechnology and Biological Sciences Research Council (UK), University of Malaya, Huertas-Rosales, Óscar, Romero, M., Chan, K.G., Hong, K.W., Cámara, Miguel, Heeb, S., Barrientos-Moreno, Laura, Molina Henares, María Antonia, Travieso, María L., Ramos-González, María Isabel, Espinosa-Urgel, Manuel, Ministerio de Ciencia e Innovación (España), European Commission, Biotechnology and Biological Sciences Research Council (UK), University of Malaya, Huertas-Rosales, Óscar, Romero, M., Chan, K.G., Hong, K.W., Cámara, Miguel, Heeb, S., Barrientos-Moreno, Laura, Molina Henares, María Antonia, Travieso, María L., Ramos-González, María Isabel, and Espinosa-Urgel, Manuel

Abstract

Post-transcriptional regulation is an important step in the control of bacterial gene expression in response to environmental and cellular signals. Pseudomonas putida KT2440 harbors three known members of the CsrA/RsmA family of post-transcriptional regulators: RsmA, RsmE and RsmI. We have carried out a global analysis to identify RNA sequences bound in vivo by each of these proteins. Affinity purification and sequencing of RNA molecules associated with Rsm proteins were used to discover direct binding targets, corresponding to 437 unique RNA molecules, 75 of them being common to the three proteins. Relevant targets include genes encoding proteins involved in signal transduction and regulation, metabolism, transport and secretion, stress responses, and the turnover of the intracellular second messenger c-di-GMP. To our knowledge, this is the first combined global analysis in a bacterium harboring three Rsm homologs. It offers a broad overview of the network of processes subjected to this type of regulation and opens the way to define what are the sequence and structure determinants that define common or differential recognition of specific RNA molecules by these proteins.

Published
2021

7. 2-Tridecanone impacts surface-associated bacterial behaviours and hinders plant-bacteria interactions

Author

Ministerio de Economía y Competitividad (España), Junta de Andalucía, Ministerio de Educación y Ciencia (España), Consejo Nacional de Ciencia y Tecnología (México), López-Lara, Isabel M., Nogales, Joaquina, Pech-Canul, Ángel de la Cruz, Calatrava-Morales, Nieves, Bernabéu-Roda, Lydia, Durán, Paloma, Cuellar, Virginia, Olivares Pascual, José, Álvarez, L., Palenzuela-Bretones, D., Romero, M., Heeb, S., Cámara, Miguel, Geiger, Otto, Soto, María José, Ministerio de Economía y Competitividad (España), Junta de Andalucía, Ministerio de Educación y Ciencia (España), Consejo Nacional de Ciencia y Tecnología (México), López-Lara, Isabel M., Nogales, Joaquina, Pech-Canul, Ángel de la Cruz, Calatrava-Morales, Nieves, Bernabéu-Roda, Lydia, Durán, Paloma, Cuellar, Virginia, Olivares Pascual, José, Álvarez, L., Palenzuela-Bretones, D., Romero, M., Heeb, S., Cámara, Miguel, Geiger, Otto, and Soto, María José

Abstract

Surface motility and biofilm formation are behaviours which enable bacteria to infect their hosts and are controlled by different chemical signals. In the plant symbiotic alpha-proteobacterium Sinorhizobium meliloti, the lack of long-chain fatty acyl-coenzyme A synthetase activity (FadD) leads to increased surface motility, defects in biofilm development and impaired root colonization. In this study, analyses of lipid extracts and volatiles revealed that a fadD mutant accumulates 2-tridecanone (2-TDC), a methylketone (MK) known as a natural insecticide. Application of pure 2-TDC to the wild-type strain phenocopies the free-living and symbiotic behaviours of the fadD mutant. Structural features of the MK determine its ability to promote S. meliloti surface translocation, which is mainly mediated by a flagella-independent motility. Transcriptomic analyses showed that 2-TDC induces differential expression of iron uptake, redox and stress-related genes. Interestingly, this MK also influences surface motility and impairs biofilm formation in plant and animal pathogenic bacteria. Moreover, 2-TDC not only hampers alfalfa nodulation but also the development of tomato bacterial speck disease. This work assigns a new role to 2-TDC as an infochemical that affects important bacterial traits and hampers plant-bacteria interactions by interfering with microbial colonization of plant tissues.

Published
2018

10. The Gac/Rsm and cyclic-di-GMP signalling networks coordinately regulate iron uptake in Pseudomonas aeruginosa

Author

FRANGIPANI, EMANUELA, Visaggio D, Heeb S, Kaever V, Cámara M, VISCA, PAOLO, Imperi F., Frangipani, E, Visaggio, Daniela, Heeb, S, Kaever, V, Cámara, M, Visca, Paolo, Imperi, F., Visaggio, D, Frangipani, Emanuela, Department of Sciences, Roma Tre University, Institut Pasteur, Fondation Cenci Bolognetti - Istituto Pasteur Italia, Fondazione Cenci Bolognetti, Réseau International des Instituts Pasteur (RIIP), School of Molecular Medical Sciences, University of Nottingham, UK (UON), Institute of Pharmacology, Hannover Medical School [Hannover] (MHH), and This work was supported by the Italian Cystic Fibrosis Foundation (grant FFC#13/2011 to F.I.), the Sapienza University of Rome (grant 2011-C26A11JY9T to F.I.) and the University Roma Tre (progetto di Internazionalizzazione 2011 to P.V and E.F.). F.I. was also partially supported by FEMS and EMBO fellowships (FRF 2009-2 and ASTF 386.00–2009, respectively

Subjects
biofilm, cyclic-di-GMP, pyochelin, pyoverdine, RsmA, small RNAs, Virulence Factors, Iron, MESH: Thiazoles, Siderophores, Sigma Factor, biofilm, cyclic-di-GMP, pyochelin, pyoverdine, RsmA, small RNAs, MESH: Phenols, Bacterial Proteins, Phenols, MESH: Cyclic GMP, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, MESH: Siderophores, MESH: Bacterial Proteins, Cyclic GMP, MESH: Virulence Factors, MESH: Gene Expression Regulation, Bacterial, MESH: Iron, MESH: Sigma Factor, RNA-Binding Proteins, Gene Expression Regulation, Bacterial, Repressor Proteins, Thiazoles, MESH: RNA-Binding Proteins, MESH: Repressor Proteins, MESH: Oligopeptides, MESH: Pseudomonas aeruginosa, Pseudomonas aeruginosa, Oligopeptides
Abstract

International audience; Pseudomonas aeruginosa is a versatile bacterial pathogen capable of occupying diverse ecological niches. To cope with iron limitation, P. aeruginosa secretes two siderophores, pyoverdine and pyochelin, whose ability to deliver iron to the cell is crucial for biofilm formation and pathogenicity. In this study, we describe a link between iron uptake and the Gac/Rsm system, a conserved signal transducing pathway of P. aeruginosa that controls the production of extracellular products and virulence factors, as well as the switch from planktonic to biofilm lifestyle. We have observed that pyoverdine and pyochelin production in P. aeruginosa is strongly dependent on the activation state of the Gac/Rsm pathway, which controls siderophore regulatory and biosynthetic genes at the transcriptional level, in a manner that does not involve regulation of ferric uptake regulator (Fur) expression. Gac/Rsm-mediated regulation of iron uptake genes appears to be conserved in different P. aeruginosa strains. Further experiments led to propose that the Gac/Rsm system regulates siderophore production through modulation of the intracellular levels of the second messenger c-di-GMP, indicating that the c-di-GMP and the Gac/Rsm regulatory networks essential for biofilm formation can also coordinately control iron uptake in P. aeruginosa.

Published
2014

16. Résponses trepartites à la crise financière mondiale: Une analyse qualitative comparée

Author

Baccaro, L. and Heeb, S.

Abstract

This paper performs a qualitative comparative analysis (QCA) of the response to the global financial crisis in 44 countries between 2008 and 2010, both developed and developing. It seeks to determine the necessary and sufficient conditions for a tripartite response, namely for the systematic involvement of trade unions and employer association (the "social partners") in the governments' policy responses. The main findings are two: 1) respect of the legal freedom of association is a necessary condition for a tripartite response; 2) the combination of a crisis that hits hard and unions that are organizationally weak, or a crisis whose impact is not particularly deep and unions that are relatively strong, is generally sufficient to produce a unilateral government response. Der Beitrag präsentiert eine vergleichende qualitative Analyse (Qualitative Comparative Analysis, QCA) der Reaktionen von 44 Ländern auf die globale Finanzkrise von 2008-2010. Er zielt darauf hin, die notwendigen und hinreichenden Bedingungen für eine dreiparteilich abgestützte Reaktion (tripartism), das heisst einer systematischen Einbindung der Gewerkschaften und der Arbeitgeberverbände (der "Sozialpartner") in die Reaktion der Regierungen, zu bestimmen. Zwei Haupterkenntnisse ergeben sich: 1) die Achtung der Koalitionsfreiheit ist eine notwendige Bedingung für eine dreiparteilich abgestützte Reaktion; 2) Die Kombination einer schweren Krise und organisatorisch schwachen Gewerkschaften, oder einer nicht besonders schweren Krise und relativ starken Gewerkschaften, ist im Allgemeinen hinreichend für eine unilaterale Reaktion seitens der Regierungen. Cet article présente une analyse qualitative comparée (Qualitative Comparative Analysis, QCA) des résponses à la crise financière mondiale dans 44 pays entre 2008 et 2010. Il cherche à déterminer les conditions nécessaires et suffisantes pour une résponse tripartite, c'est-à-dire pour l'implication systématique des syndicats et des associations patronales (les "partenaires sociaux") dans la résponse des gouvernements. Deux conclusions principales se détachent: 1) le respect de la liberté d'association est une condition nécessaire pour une résponse tripartite; 2) la combinaison d'une crise dure et de syndicats faibles au plan organisationnel, ou d'une crise dont l'impact reste peu profond et de syndicats relativement forts, suffit en général pour produire une résponse unilatéral de la part des gouvernements.

Published
2012
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18. Quorum Sensing in Pseudomonads

Author

Diggle, S. P., primary, Heeb, S., additional, Dubern, J. F., additional, Fletcher, M. P., additional, Crusz, S. A., additional, Williams, P., additional, and Cmara, M., additional

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20. A LuxRI-family regulatory system controls excision and transfer of the Mesorhizobium loti strain R7A symbiosis island by activating expression of two conserved hypothetical genes

Author

Ramsay, Joshua, Sullivan, J., Jambari, N., Ortori, C., Heeb, S., Williams, P., Barrett, D., Lamont, L., Ronson, C., Ramsay, Joshua, Sullivan, J., Jambari, N., Ortori, C., Heeb, S., Williams, P., Barrett, D., Lamont, L., and Ronson, C.

Abstract

The symbiosis island ICEM/SymR7A of Mesorhizobium loti R7A is an integrative and conjugative element (ICE) that carries genes required for a nitrogen-fixing symbiosis with Lotus species. ICEM/SymR7A encodes homologues (TraR, Trad and Tral2) of proteins that regulate plasmid transfer by quorum sensing in rhizobia and agrobacteria. Introduction of traR cloned on a plasmid induced excision of ICEM/SymR7A in all cells, a 1000-fold increase in the production of 3-oxo-C6homoserine lactone (3-oxo-C6-HSL) and a 40-fold increase in conjugative transfer. These effects were dependent on trail but not tral2. Induction of expression from the trail and trail promoters required the presence of plasmid-bome traR and either trail or 10OpM 3-OXO-C6-HSL, suggesting that traR expression or TraR activity is repressed in wild-type cells by a mechanism that can be overcome by additional copies of traR. The tral2 gene formed an operon with hypothetical genes msi172 and msi171 that were essential for ICEAWSymR7A excision and transfer. Our data suggest that derepressed TraR in conjunction with Trail-synthesized 3-oxo-C6-HSL regulates exci-sion and transfer of ICEM/SymR7A through expression of msi172 and msi171. Homologues of msi172 and msi171 were present on putative ICEs in several oc-proteobacteria, indicating a conserved role in ICE excision and transfer. © 2009 Blackwell Publishing Ltd.

Published
2009

24. Synthesis and structural characterization of η6-arene-ruthenium(II) complexes of α-amino acids with coordinating side chains

Author

Sheldrick, W.S. and Heeb, S.

Abstract

η6-Areneruthenium(II) complexes of the amino acids l-penicillamine (l-penH), l-histidine (l-hisH), l-histidine methyl ester (l-hisMe) and the peptide triglycine (glyglyglyH) have been prepared by reaction of these amino acids with [(η6-C6H6)RuCl2]2. Crystal structure analyses are reported for [(η6-C6H6)Ru(l-pen)]2Cl2(1), [(η6-C6H6)Ru(l-hisMe)Cl]Cl (3) and [(η6-C6H6)Ru(glyglygly)Cl] (4). The amino acidate ligands are tridentate in 1, with the deprotonated sulphur atoms adopting a bridging position between two ruthenium atoms, leading to the formation of a four-membered RuSRuS-ring. Bidentate N(ammine), N(imidazole) and N(ammine), N(peptide) binding, respectively, are exhibited by the complexes 3and 4. The factors influencing the observed metal binding sites and chiralities are discussed.

Published
1989
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25. Preparation and Structural Characterization of Methylmercury(II) Complexes of 5-Aza- and 6-Azauracil Derivatives

Author

Sheldrick, W. S. and Heeb, S.

Abstract

1:1 Methylmercury(II) complexes of the anti-tumour agent 6-azauracil (6AUH2) and its deriva­tives 6-azathymine (6ATH2). 1-methyl-6-azauracil (6AMUH) and 1-methyl-6-azathymine (6AMTH) have been isolated from aqueous solutions of CH3HgOH and the respective base. N3-Coordination was established by X-ray structural analysis for both [(CH3Hg)6 AUH] (1) (pH 6-8) and [(CH3Hg)6 AMT] (5) (pH 4-12); in addition 1H NMR data are in accordance with an identical binding site in the complexes [(CH3Hg)6AMU] (3) and [(CH3Hg)6 ATH] (4). Using an excess of CH3HgOH. 2:1 complexes with N1, N3-coordination may be prepared for both 6 AUH:and 5 AUH2in a wide pH range (4-12 and 6-12 respectively). At pH values of 3-4 a 3:1 complex [(CH3Hg)35 AU]NO3(7), with N1, N3, N5-coordination may be isolated: the binding sites were confirmed by X-ray structural analysis. In no case could an ionic complex with N6- coordination be isolated for a 6-azapyrimidine derivative. The binding preferences of the bases are discussed in the light of MNDO calculations.

Published
1987
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26. Genome-wide search reveals a novel GacA-regulated small RNA in Pseudomonas species

Author

Kay Elisabeth, Valverde Claudio, Heeb Stephan, González Nicolas, Reimmann Cornelia, Junier Thomas, and Haas Dieter

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Small RNAs (sRNAs) are widespread among bacteria and have diverse regulatory roles. Most of these sRNAs have been discovered by a combination of computational and experimental methods. In Pseudomonas aeruginosa, a ubiquitous Gram-negative bacterium and opportunistic human pathogen, the GacS/GacA two-component system positively controls the transcription of two sRNAs (RsmY, RsmZ), which are crucial for the expression of genes involved in virulence. In the biocontrol bacterium Pseudomonas fluorescens CHA0, three GacA-controlled sRNAs (RsmX, RsmY, RsmZ) regulate the response to oxidative stress and the expression of extracellular products including biocontrol factors. RsmX, RsmY and RsmZ contain multiple unpaired GGA motifs and control the expression of target mRNAs at the translational level, by sequestration of translational repressor proteins of the RsmA family. Results A combined computational and experimental approach enabled us to identify 14 intergenic regions encoding sRNAs in P. aeruginosa. Eight of these regions encode newly identified sRNAs. The intergenic region 1698 was found to specify a novel GacA-controlled sRNA termed RgsA. GacA regulation appeared to be indirect. In P. fluorescens CHA0, an RgsA homolog was also expressed under positive GacA control. This 120-nt sRNA contained a single GGA motif and, unlike RsmX, RsmY and RsmZ, was unable to derepress translation of the hcnA gene (involved in the biosynthesis of the biocontrol factor hydrogen cyanide), but contributed to the bacterium's resistance to hydrogen peroxide. In both P. aeruginosa and P. fluorescens the stress sigma factor RpoS was essential for RgsA expression. Conclusion The discovery of an additional sRNA expressed under GacA control in two Pseudomonas species highlights the complexity of this global regulatory system and suggests that the mode of action of GacA control may be more elaborate than previously suspected. Our results also confirm that several GGA motifs are required in an sRNA for sequestration of the RsmA protein.

Published
2008
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29. Design, Synthesis, and Evaluation of New 1 H -Benzo[ d ]imidazole Based PqsR Inhibitors as Adjuvant Therapy for Pseudomonas aeruginosa Infections.

Author

Soukarieh F, Mashabi A, Richardson W, Oton EV, Romero M, Dubern JF, Robertson SN, Lucanto S, Markham-Lee Z, Sou T, Kukavica-Ibrulj I, Levesque RC, Bergstrom CAS, Halliday N, Kellam B, Emsley J, Heeb S, Williams P, Stocks MJ, and Cámara M

Subjects
Humans, Quorum Sensing, Biofilms, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Anti-Bacterial Agents metabolism, Imidazoles pharmacology, Imidazoles therapeutic use, Imidazoles metabolism, Pseudomonas aeruginosa metabolism, Bacterial Proteins, Virulence Factors, Pseudomonas Infections drug therapy, Pseudomonas Infections microbiology, Quinolones pharmacology
Abstract

Pseudomonas aeruginosa is one of the top priority pathogens that requires immediate attention according to the World Health Organisation (WHO). Due to the alarming shortage of novel antimicrobials, targeting quorum sensing (QS), a bacterial cell to cell signaling system controlling virulence, has emerged as a promising approach as an antibiotic adjuvant therapy. Interference with the pqs system, one of three QS systems in P. aeruginosa , results in reduction of bacterial virulence gene expression and biofilm maturation. Herein, we report a hit to lead process to fine-tune the potency of our previously reported inhibitor 1 (IC 50 3.2 μM in P. aeruginosa PAO1-L), which led to the discovery of 2-(4-(3-((6-chloro-1-isopropyl-1 H -benzo[ d ]imidazol-2-yl)amino)-2-hydroxypropoxy)phenyl)acetonitrile ( 6f ) as a potent PqsR antagonist. Compound 6f inhibited the PqsR-controlled P pqsA - lux transcriptional reporter fusion in P. aeruginosa at low submicromolar concentrations. Moreover, 6f showed improved efficacy against P. aeruginosa CF isolates with significant inhibition of pyocyanin, 2-alkyl-4(1 H )-quinolones production.

Published
2024
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30. Convergence of resistance and evolutionary responses in Escherichia coli and Salmonella enterica co-inhabiting chicken farms in China.

Author

Baker M, Zhang X, Maciel-Guerra A, Babaarslan K, Dong Y, Wang W, Hu Y, Renney D, Liu L, Li H, Hossain M, Heeb S, Tong Z, Pearcy N, Zhang M, Geng Y, Zhao L, Hao Z, Senin N, Chen J, Peng Z, Li F, and Dottorini T

Subjects
Animals, Farms, Chickens, Escherichia coli genetics, Phylogeny, China epidemiology, Salmonella enterica genetics, Anti-Infective Agents
Abstract

Sharing of genetic elements among different pathogens and commensals inhabiting same hosts and environments has significant implications for antimicrobial resistance (AMR), especially in settings with high antimicrobial exposure. We analysed 661 Escherichia coli and Salmonella enterica isolates collected within and across hosts and environments, in 10 Chinese chicken farms over 2.5 years using data-mining methods. Most isolates within same hosts possessed the same clinically relevant AMR-carrying mobile genetic elements (plasmids: 70.6%, transposons: 78%), which also showed recent common evolution. Supervised machine learning classifiers revealed known and novel AMR-associated mutations and genes underlying resistance to 28 antimicrobials, primarily associated with resistance in E. coli and susceptibility in S. enterica. Many were essential and affected same metabolic processes in both species, albeit with varying degrees of phylogenetic penetration. Multi-modal strategies are crucial to investigate the interplay of mobilome, resistance and metabolism in cohabiting bacteria, especially in ecological settings where community-driven resistance selection occurs., (© 2024. The Author(s).)

Published
2024
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31. RsaL-driven negative regulation promotes heterogeneity in Pseudomonas aeruginosa quorum sensing.

Author

Mellini M, Letizia M, Caruso L, Guiducci A, Meneghini C, Heeb S, Williams P, Cámara M, Visca P, Imperi F, Leoni L, and Rampioni G

Subjects
Single-Cell Analysis, Feedback, Physiological, Pseudomonas aeruginosa genetics, Pseudomonas aeruginosa physiology, Quorum Sensing, Gene Expression Regulation, Bacterial, Bacterial Proteins genetics, Bacterial Proteins metabolism
Abstract

Importance: Single-cell analyses can reveal that despite experiencing identical physico-chemical conditions, individual bacterial cells within a monoclonal population may exhibit variations in gene expression. Such phenotypic heterogeneity has been described for several aspects of bacterial physiology, including QS activation. This study demonstrates that the transition of non-quorate cells to the quorate state is a graded process that does not occur at a specific cell density and that subpopulations of non-quorate cells also persist at high cell density. Here, we provide a mechanistic explanation for this phenomenon, showing that a negative feedback regulatory loop integrated into the las system has a pivotal role in promoting cell-to-cell variation in the QS activation state and in limiting the transition of non-quorate cells to the quorate state in P. aeruginosa ., Competing Interests: The authors declare no conflict of interest.

Published
2023
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32. Alkyl-quinolone-dependent quorum sensing controls prophage-mediated autolysis in Pseudomonas aeruginosa colony biofilms.

Author

Giallonardi G, Letizia M, Mellini M, Frangipani E, Halliday N, Heeb S, Cámara M, Visca P, Imperi F, Leoni L, Williams P, and Rampioni G

Subjects
Humans, Quorum Sensing, Pseudomonas aeruginosa genetics, Prophages, Biofilms, Autolysis, Quinolones pharmacology
Abstract

Pseudomonas aeruginosa is a model quorum sensing (QS) pathogen with three interconnected QS circuits that control the production of virulence factors and antibiotic tolerant biofilms. The pqs QS system of P. aeruginosa is responsible for the biosynthesis of diverse 2-alkyl-4-quinolones (AQs), of which 2-heptyl-4-hydroxyquinoline (HHQ) and 2-heptyl-3-hydroxy-4( 1H )-quinolone (PQS) function as QS signal molecules. Transcriptomic analyses revealed that HHQ and PQS influenced the expression of multiple genes via PqsR-dependent and -independent pathways whereas 2-heptyl-4-hydroxyquinoline N -oxide (HQNO) had no effect on P. aeruginosa transcriptome. HQNO is a cytochrome bc 1 inhibitor that causes P. aeruginosa programmed cell death and autolysis. However, P. aeruginosa pqsL mutants unable to synthesize HQNO undergo autolysis when grown as colony biofilms. The mechanism by which such autolysis occurs is not understood. Through the generation and phenotypic characterization of multiple P. aeruginosa PAO1 mutants producing altered levels of AQs in different combinations, we demonstrate that mutation of pqsL results in the accumulation of HHQ which in turn leads to Pf4 prophage activation and consequently autolysis. Notably, the effect of HHQ on Pf4 activation is not mediated via its cognate receptor PqsR. These data indicate that the synthesis of HQNO in PAO1 limits HHQ-induced autolysis mediated by Pf4 in colony biofilms. A similar phenomenon is shown to occur in P. aeruginosa cystic fibrosis (CF) isolates, in which the autolytic phenotype can be abrogated by ectopic expression of pqsL ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Giallonardi, Letizia, Mellini, Frangipani, Halliday, Heeb, Cámara, Visca, Imperi, Leoni, Williams and Rampioni.)

Published
2023
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33. Mushroom-shaped structures formed in Acinetobacter baumannii biofilms grown in a roller bioreactor are associated with quorum sensing-dependent Csu-pilus assembly.

Author

Romero M, Mayer C, Heeb S, Wattanavaekin K, Cámara M, Otero A, and Williams P

Subjects
Acyl-Butyrolactones, Anti-Bacterial Agents pharmacology, Bacterial Proteins genetics, Biofilms, Bioreactors, Quorum Sensing, Acinetobacter baumannii
Abstract

There is currently a need to develop simple biofilm models that facilitate investigation of the architecture/biology of mature bacterial biofilms in a consistent/standardized manner given their environmental and clinical importance and the need for new anti-biofilm interventions. This study introduces a novel biofilm culture system termed the rolling biofilm bioreactor (RBB). This easily operated system allows adherent microbial cells to be repeatedly exposed to air/solid/liquid interfaces optimizing biofilm growth. The RBB was exploited to investigate biofilm formation in Acinetobacter baumannii. High levels of A. baumannii biofilm biomass reproducibly accumulate in the RBB and, importantly, undergo a maturation step to form large mushroom-shaped structures that had not been observed in other models. Based on image analysis of biofilm development and genetic manipulation, we show how N-acylhomoserine lactone-dependent quorum sensing (QS) impacts on biofilm differentiation, composition and antibiotic tolerance. Our results indicate that extracellular DNA (eDNA) is a key matrix component in mature Acinetobacter biofilms as the mushroom-like structures consist of dense cellular masses encased in an eDNA mesh. Moreover, this study reveals the contribution of QS to A. baumannii biofilm differentiation through Csu pilus assembly regulation. Understanding the mechanisms of structural development of mature biofilms helps to identify new biofilm eradication and removal strategies., (© 2022 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2022
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34. ToxR is a c-di-GMP binding protein that modulates surface-associated behaviour in Pseudomonas aeruginosa.

Author

Dubern JF, Romero M, Mai-Prochnow A, Messina M, Trampari E, Gijzel HN, Chan KG, Carabelli AM, Barraud N, Lazenby J, Chen Y, Robertson S, Malone JG, Williams P, Heeb S, and Cámara M

Subjects
Bacterial Proteins genetics, Bacterial Proteins metabolism, Cyclic GMP analogs & derivatives, Cyclic GMP metabolism, Gene Expression Regulation, Bacterial, Pseudomonas aeruginosa physiology
Abstract

Pseudomonas aeruginosa uses multiple protein regulators that work in tandem to control the production of a wide range of virulence factors and facilitate rapid adaptation to diverse environmental conditions. In this opportunistic pathogen, ToxR was known to positively regulate the production of the major virulence factor exotoxin A and now, through analysis of genetic changes between two sublines of P. aeruginosa PAO1 and functional complementation of swarming, we have identified a previously unknown role of ToxR in surface-associated motility in P. aeruginosa. Further analysis revealed that ToxR had an impact on swarming motility by regulating the Rhl quorum sensing system and subsequent production of rhamnolipid surfactants. Additionally, ToxR was found to tightly bind cyclic diguanylate (c-di-GMP) and negatively affect traits controlled by this second messenger including reducing biofilm formation and the expression of Psl and Pel exopolysaccharides, necessary for attachment and sessile communities matrix scaffolding, in P. aeruginosa. Moreover, a link between the post-transcriptional regulator RsmA and toxR expression via the alternative sigma factor PvdS, induced under iron-limiting conditions, is established. This study reveals the importance of ToxR in a sophisticated regulation of free-living and biofilm-associated lifestyles, appropriate for establishing acute or chronic P. aeruginosa infections., (© 2022. The Author(s).)

Published
2022
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35. Actinomadura graeca sp. nov.: A novel producer of the macrocyclic antibiotic zelkovamycin.

Author

Tarantini FS, Brunati M, Taravella A, Carrano L, Parenti F, Hong KW, Williams P, Chan KG, Heeb S, and Chan WC

Subjects
Actinomadura classification, Actinomadura genetics, Actinomadura metabolism, Actinomadura ultrastructure, Antimicrobial Cationic Peptides biosynthesis, Antimicrobial Cationic Peptides genetics, Base Composition, Macrocyclic Compounds metabolism
Abstract

As part of a screening programme for antibiotic-producing bacteria, a novel Actinomadura species was discovered from a soil sample collected in Santorini, Greece. Preliminary 16S rRNA gene sequence comparisons highlighted Actinomadura macra as the most similar characterised species. However, whole-genome sequencing revealed an average nucleotide identity (ANI) value of 89% with A. macra, the highest among related species. Further phenotypic and chemotaxonomic analyses confirmed that the isolate represents a previously uncharacterised species in the genus Actinomadura, for which the name Actinomadura graeca sp. nov. is proposed (type strain 32-07T). The G+C content of A. graeca 32-07 is 72.36%. The cell wall contains DL-diaminopimelic acid, intracellular sugars are glucose, ribose and galactose, the predominant menaquinone is MK-9(H6), the major cellular lipid is phosphatidylinositol and fatty acids consist mainly of hexadecanoic acid. No mycolic acid was detected. Furthermore, A. graeca 32-07 has been confirmed as a novel producer of the non-ribosomal peptide antibiotic zelkovamycin and we report herein a provisional description of the unique biosynthetic gene cluster., Competing Interests: The authors have declared that no competing interests exist.

Published
2021
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36. Design and Evaluation of New Quinazolin-4(3 H )-one Derived PqsR Antagonists as Quorum Sensing Quenchers in Pseudomonas aeruginosa .

Author

Soukarieh F, Mashabi A, Richardson W, Oton EV, Romero M, Roberston SN, Grossman S, Sou T, Liu R, Halliday N, Kukavica-Ibrulj I, Levesque RC, Bergstrom CAS, Kellam B, Emsley J, Heeb S, Williams P, Stocks MJ, and Cámara M

Subjects
Bacterial Proteins metabolism, Biofilms, Gene Expression Regulation, Bacterial, Pseudomonas aeruginosa metabolism, Quorum Sensing
Abstract

P. aeruginosa (PA) continues to pose a threat to global public health due to its high levels of antimicrobial resistance (AMR). The ongoing AMR crisis has led to an alarming shortage of effective treatments for resistant microbes, and hence there is a pressing demand for the development of novel antimicrobial interventions. The potential use of antivirulence therapeutics to tackle bacterial infections has attracted considerable attention over the past decades as they hamper the pathogenicity of target microbes with reduced selective pressure, minimizing the emergence of resistance. One such approach is to interfere with the PA pqs quorum sensing system which upon the interaction of PqsR, a Lys-R type transcriptional regulator, with its cognate signal molecules 4-hydroxy-2-heptylquinoline (HHQ) and 2-heptyl-3-hydroxy-4-quinolone (PQS), governs multiple virulence traits and host-microbe interactions. In this study, we report the hit identification and optimization of PqsR antagonists using virtual screening coupled with whole cell assay validation. The optimized hit compound 61 (( R )-2-(4-(3-(6-chloro-4-oxoquinazolin-3(4 H )-yl)-2-hydroxypropoxy)phenyl)acetonitrile) was found to inhibit the expression of the PA P pqsA promoter controlled by PqsR with an IC 50 of 1 μM. Using isothermal titration calorimetry, a K d of 10 nM for the PqsR ligand binding domain (PqsR LBD ) was determined for 61. Furthermore, the crystal structure of 61 with PqsR LBD was attained with a resolution of 2.65 Å. Compound 61 significantly reduced levels of pyocyanin, PQS, and HHQ in PAO1-L, PA14 lab strains and PAK6085 clinical isolate. Furthermore, this compound potentiated the effect of ciprofloxacin in early stages of biofilm treatment and in Galleria mellonella infected with PA. Altogether, this data shows 61 as a potent PqsR inhibitor with potential for hit to lead optimization toward the identification of a PA QS inhibitor which can be advanced into preclinical development.

Published
2021
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37. Engineering Cupriavidus necator H16 for the autotrophic production of (R)-1,3-butanediol.

Author

Gascoyne JL, Bommareddy RR, Heeb S, and Malys N

Subjects
Autotrophic Processes, Butylene Glycols, Carbon Cycle, Cupriavidus necator genetics
Abstract

Butanediols are widely used in the synthesis of polymers, specialty chemicals and important chemical intermediates. Optically pure R-form of 1,3-butanediol (1,3-BDO) is required for the synthesis of several industrial compounds and as a key intermediate of β-lactam antibiotic production. The (R)-1,3-BDO can only be produced by application of a biocatalytic process. Cupriavidus necator H16 is an established production host for biosynthesis of biodegradable polymer poly-3-hydroxybutryate (PHB) via acetyl-CoA intermediate. Therefore, the utilisation of acetyl-CoA or its upstream precursors offers a promising strategy for engineering biosynthesis of value-added products such as (R)-1,3-BDO in this bacterium. Notably, C. necator H16 is known for its natural capacity to fix carbon dioxide (CO 2 ) using hydrogen as an electron donor. Here, we report engineering of this facultative lithoautotrophic bacterium for heterotrophic and autotrophic production of (R)-1,3-BDO. Implementation of (R)-3-hydroxybutyraldehyde-CoA- and pyruvate-dependent biosynthetic pathways in combination with abolishing PHB biosynthesis and reducing flux through the tricarboxylic acid cycle enabled to engineer strain, which produced 2.97 g/L of (R)-1,3-BDO and achieved production rate of nearly 0.4 Cmol Cmol -1 h -1 autotrophically. This is first report of (R)-1,3-BDO production from CO 2 ., (Copyright © 2021 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2021
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38. Disruption of the Pseudomonas aeruginosa Tat system perturbs PQS-dependent quorum sensing and biofilm maturation through lack of the Rieske cytochrome bc1 sub-unit.

Author

Soh EY, Smith F, Gimenez MR, Yang L, Vejborg RM, Fletcher M, Halliday N, Bleves S, Heeb S, Cámara M, Givskov M, Hardie KR, Tolker-Nielsen T, Ize B, and Williams P

Subjects
Anti-Bacterial Agents pharmacology, Bacterial Proteins genetics, Bacterial Proteins metabolism, Biofilms drug effects, DNA, Bacterial genetics, Electron Transport Complex III genetics, Gene Expression Regulation, Bacterial, Glycolipids metabolism, Pseudomonas aeruginosa drug effects, Pseudomonas aeruginosa metabolism, Pyocyanine metabolism, Twin-Arginine-Translocation System genetics, Virulence Factors genetics, Virulence Factors metabolism, Biofilms growth & development, Electron Transport Complex III metabolism, Extracellular Vesicles genetics, Pseudomonas aeruginosa growth & development, Quinolones metabolism, Quorum Sensing, Twin-Arginine-Translocation System metabolism
Abstract

Extracellular DNA (eDNA) is a major constituent of the extracellular matrix of Pseudomonas aeruginosa biofilms and its release is regulated via pseudomonas quinolone signal (PQS) dependent quorum sensing (QS). By screening a P. aeruginosa transposon library to identify factors required for DNA release, mutants with insertions in the twin-arginine translocation (Tat) pathway were identified as exhibiting reduced eDNA release, and defective biofilm architecture with enhanced susceptibility to tobramycin. P. aeruginosa tat mutants showed substantial reductions in pyocyanin, rhamnolipid and membrane vesicle (MV) production consistent with perturbation of PQS-dependent QS as demonstrated by changes in pqsA expression and 2-alkyl-4-quinolone (AQ) production. Provision of exogenous PQS to the tat mutants did not return pqsA, rhlA or phzA1 expression or pyocyanin production to wild type levels. However, transformation of the tat mutants with the AQ-independent pqs effector pqsE restored phzA1 expression and pyocyanin production. Since mutation or inhibition of Tat prevented PQS-driven auto-induction, we sought to identify the Tat substrate(s) responsible. A pqsA::lux fusion was introduced into each of 34 validated P. aeruginosa Tat substrate deletion mutants. Analysis of each mutant for reduced bioluminescence revealed that the primary signalling defect was associated with the Rieske iron-sulfur subunit of the cytochrome bc1 complex. In common with the parent strain, a Rieske mutant exhibited defective PQS signalling, AQ production, rhlA expression and eDNA release that could be restored by genetic complementation. This defect was also phenocopied by deletion of cytB or cytC1. Thus, either lack of the Rieske sub-unit or mutation of cytochrome bc1 genes results in the perturbation of PQS-dependent autoinduction resulting in eDNA deficient biofilms, reduced antibiotic tolerance and compromised virulence factor production., Competing Interests: No authors have competing interests

Published
2021
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39. Combining Inducible Lectin Expression and Magnetic Glyconanoparticles for the Selective Isolation of Bacteria from Mixed Populations.

Author

Petch JE, Gurnani P, Yilmaz G, Mastrotto F, Alexander C, Heeb S, Cámara M, and Mantovani G

Subjects
Bacterial Adhesion, Gene Expression, Glycoproteins metabolism, Polymers chemistry, Escherichia coli genetics, Escherichia coli isolation & purification, Glycoproteins chemistry, Lectins genetics, Magnets chemistry, Nanoparticles chemistry
Abstract

The selective isolation of bacteria from mixed populations has been investigated in varied applications ranging from differential pathogen identification in medical diagnostics and food safety to the monitoring of microbial stress dynamics in industrial bioreactors. Selective isolation techniques are generally limited to the confinement of small populations in defined locations, may be unable to target specific bacteria, or rely on immunomagnetic separation, which is not universally applicable. In this proof-of-concept work, we describe a novel strategy combining inducible bacterial lectin expression with magnetic glyconanoparticles (MGNPs) as a platform technology to enable selective bacterial isolation from cocultures. An inducible mutant of the type 1 fimbriae, displaying the mannose-specific lectin FimH, was constructed in Escherichia coli allowing for "on-demand" glycan-binding protein presentation following external chemical stimulation. Binding to glycopolymers was only observed upon fimbrial induction and was specific for mannosylated materials. A library of MGNPs was produced via the grafting of well-defined catechol-terminal glycopolymers prepared by reversible addition-fragmentation chain transfer (RAFT) polymerization to magnetic nanoparticles. Thermal analysis revealed high functionalization (≥85% polymer by weight). Delivery of MGNPs to cocultures of fluorescently labeled bacteria followed by magnetic extraction resulted in efficient depletion of type 1 fimbriated target cells from wild-type or afimbriate E. coli . Extraction efficiency was found to be dependent on the molecular weight of the glycopolymers utilized to engineer the nanoparticles, with MGNPs decorated with shorter Dopa-(ManAA) 50 mannosylated glycopolymers found to perform better than those assembled from a longer Dopa-(ManAA) 200 analogue. The extraction efficiency of fimbriated E. coli was also improved when the counterpart strain did not harbor the genetic apparatus for the expression of the type 1 fimbriae. Overall, this work suggests that the modulation of the genetic apparatus encoding bacterial surface-associated lectins coupled with capture through MGNPs could be a versatile tool for the extraction of bacteria from mixed populations.

Published
2021
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40. Genome-Wide Analysis of Targets for Post-Transcriptional Regulation by Rsm Proteins in Pseudomonas putida .

Author

Huertas-Rosales Ó, Romero M, Chan KG, Hong KW, Cámara M, Heeb S, Barrientos-Moreno L, Molina-Henares MA, Travieso ML, Ramos-González MI, and Espinosa-Urgel M

Abstract

Post-transcriptional regulation is an important step in the control of bacterial gene expression in response to environmental and cellular signals. Pseudomonas putida KT2440 harbors three known members of the CsrA/RsmA family of post-transcriptional regulators: RsmA, RsmE and RsmI. We have carried out a global analysis to identify RNA sequences bound in vivo by each of these proteins. Affinity purification and sequencing of RNA molecules associated with Rsm proteins were used to discover direct binding targets, corresponding to 437 unique RNA molecules, 75 of them being common to the three proteins. Relevant targets include genes encoding proteins involved in signal transduction and regulation, metabolism, transport and secretion, stress responses, and the turnover of the intracellular second messenger c-di-GMP. To our knowledge, this is the first combined global analysis in a bacterium harboring three Rsm homologs. It offers a broad overview of the network of processes subjected to this type of regulation and opens the way to define what are the sequence and structure determinants that define common or differential recognition of specific RNA molecules by these proteins., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Huertas-Rosales, Romero, Chan, Hong, Cámara, Heeb, Barrientos-Moreno, Molina-Henares, Travieso, Ramos-González and Espinosa-Urgel.)

Published
2021
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41. Hit Identification of New Potent PqsR Antagonists as Inhibitors of Quorum Sensing in Planktonic and Biofilm Grown Pseudomonas aeruginosa .

Author

Soukarieh F, Liu R, Romero M, Roberston SN, Richardson W, Lucanto S, Oton EV, Qudus NR, Mashabi A, Grossman S, Ali S, Sou T, Kukavica-Ibrulj I, Levesque RC, Bergström CAS, Halliday N, Mistry SN, Emsley J, Heeb S, Williams P, Cámara M, and Stocks MJ

Abstract

Current treatments for Pseudomonas aeruginosa infections are becoming less effective because of the increasing rates of multi-antibiotic resistance. Pharmacological targeting of virulence through inhibition of quorum sensing (QS) dependent virulence gene regulation has considerable therapeutic potential. In P. aeruginosa , the pqs QS system regulates the production of multiple virulence factors as well as biofilm maturation and is a promising approach for developing antimicrobial adjuvants for combatting drug resistance. In this work, we report the hit optimisation for a series of potent novel inhibitors of PqsR, a key regulator of the pqs system, bearing a 2-((5-methyl-5 H -[1,2,4]triazino[5,6- b ]indol-3-yl)thio) acetamide scaffold. The initial hit compound 7 (PAO1-L IC 50 0.98 ± 0.02 μM, PA14 inactive at 10 μM) was obtained through a virtual screening campaign performed on the PqsR ligand binding domain using the University of Nottingham Managed Chemical Compound Collection. Hit optimisation gave compounds with enhanced potency against strains PAO1-L and PA14, evaluated using P. aeruginosa pqs -based QS bioreporter assays. Compound 40 (PAO1-L IC 50 0.25 ± 0.12 μM, PA14 IC 50 0.34 ± 0.03 μM) is one of the most potent PqsR antagonists reported showing significant inhibition of P. aeruginosa pyocyanin production and pqs system signaling in both planktonic cultures and biofilms. The co-crystal structure of 40 with the PqsR ligand binding domain revealed the specific binding interactions occurring between inhibitor and this key regulatory protein., (Copyright © 2020 Soukarieh, Liu, Romero, Roberston, Richardson, Lucanto, Oton, Qudus, Mashabi, Grossman, Ali, Sou, Kukavica-Ibrulj, Levesque, Bergström, Halliday, Mistry, Emsley, Heeb, Williams, Cámara and Stocks.)

Published
2020
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42. Genome-wide mapping of the RNA targets of the Pseudomonas aeruginosa riboregulatory protein RsmN.

Author

Romero M, Silistre H, Lovelock L, Wright VJ, Chan KG, Hong KW, Williams P, Cámara M, and Heeb S

Subjects
Alginates metabolism, Bacterial Proteins genetics, Cyclic GMP analogs & derivatives, Cyclic GMP metabolism, Genome, Bacterial, Polysaccharides, Bacterial biosynthesis, Pseudomonas aeruginosa metabolism, RNA, Small Untranslated metabolism, Regulon, Repressor Proteins metabolism, Type VI Secretion Systems genetics, Type VI Secretion Systems metabolism, Bacterial Proteins metabolism, Gene Expression Regulation, Bacterial, Pseudomonas aeruginosa genetics, RNA, Messenger metabolism, RNA-Binding Proteins metabolism
Abstract

Pseudomonads typically carry multiple non-identical alleles of the post-transcriptional regulator rsmA. In Pseudomonas aeruginosa, RsmN is notable in that its structural rearrangement confers distinct and overlapping functions with RsmA. However, little is known about the specificities of RsmN for its target RNAs and overall impact on the biology of this pathogen. We purified and mapped 503 transcripts directly bound by RsmN in P. aeruginosa. About 200 of the mRNAs identified encode proteins of demonstrated function including some determining acute and chronic virulence traits. For example, RsmN reduces biofilm development both directly and indirectly via multiple pathways, involving control of Pel exopolysaccharide biosynthesis and c-di-GMP levels. The RsmN targets identified are also shared with RsmA, although deletion of rsmN generally results in less pronounced phenotypes than those observed for ΔrsmA or ΔrsmArsmNind mutants, probably as a consequence of different binding affinities. Targets newly identified for the Rsm system include the small non-coding RNA CrcZ involved in carbon catabolite repression, for which differential binding of RsmN and RsmA to specific CrcZ regions is demonstrated. The results presented here provide new insights into the intricacy of riboregulatory networks involving multiple but distinct RsmA homologues.

Published
2018
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43. Differential Regulation of the Phenazine Biosynthetic Operons by Quorum Sensing in Pseudomonas aeruginosa PAO1-N.

Author

Higgins S, Heeb S, Rampioni G, Fletcher MP, Williams P, and Cámara M

Subjects
Artificial Gene Fusion, Gene Expression Profiling, Genes, Reporter, Luminescent Proteins analysis, Nucleic Acid Hybridization, Phenazines metabolism, Real-Time Polymerase Chain Reaction, Biosynthetic Pathways genetics, Gene Expression Regulation, Bacterial, Operon, Pseudomonas aeruginosa genetics, Pseudomonas aeruginosa physiology, Pyocyanine biosynthesis, Quorum Sensing
Abstract

The Pseudomonas aeruginosa quorum sensing (QS) network plays a key role in the adaptation to environmental changes and the control of virulence factor production in this opportunistic human pathogen. Three interlinked QS systems, namely las, rhl , and pqs , are central to the production of pyocyanin, a phenazine virulence factor which is typically used as phenotypic marker for analysing QS. Pyocyanin production in P. aeruginosa is a complex process involving two almost identical operons termed phzA 1 B 1 C 1 D 1 E 1 F 1 G 1 ( phz1 ) and phzA 2 B 2 C 2 D 2 E 2 F 2 G 2 ( phz2 ), which drive the production of phenazine-1-carboxylic acid (PCA) which is further converted to pyocyanin by two modifying enzymes PhzM and PhzS. Due to the high sequence conservation between the phz1 and phz2 operons (nucleotide identity > 98%), analysis of their individual expression by RNA hybridization, qRT-PCR or transcriptomics is challenging. To overcome this difficulty, we utilized luminescence based promoter fusions of each phenazine operon to measure in planktonic cultures their transcriptional activity in P. aeruginosa PAO1-N genetic backgrounds impaired in different components of the las, rhl , and pqs QS systems, in the presence or absence of different QS signal molecules. Using this approach, we found that all three QS systems play a role in differentially regulating the phz1 and phz2 phenazine operons, thus uncovering a higher level of complexity to the QS regulation of PCA biosynthesis in P. aeruginosa than previously appreciated., Importance: The way the P. aeruginosa QS regulatory networks are intertwined creates a challenge when analysing the mechanisms governing specific QS-regulated traits. Multiple QS regulators and signals have been associated with the production of phenazine virulence factors. In this work we designed experiments where we dissected the contribution of specific QS switches using individual mutations and complementation strategies to gain further understanding of the specific roles of these QS elements in controlling expression of the two P. aeruginosa phenazine operons. Using this approach we have teased out which QS regulators have either indirect or direct effects on the regulation of the two phenazine biosynthetic operons. The data obtained highlight the sophistication of the QS cascade in P. aeruginosa and the challenges in analysing the control of phenazine secondary metabolites.

Published
2018
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44. 2-Tridecanone impacts surface-associated bacterial behaviours and hinders plant-bacteria interactions.

Author

López-Lara IM, Nogales J, Pech-Canul Á, Calatrava-Morales N, Bernabéu-Roda LM, Durán P, Cuéllar V, Olivares J, Alvarez L, Palenzuela-Bretones D, Romero M, Heeb S, Cámara M, Geiger O, and Soto MJ

Subjects
Bacterial Proteins genetics, Biofilms drug effects, Gene Expression Profiling, Gene Expression Regulation, Bacterial, Mutation, Phenotype, Sinorhizobium meliloti genetics, Symbiosis, Bacterial Proteins metabolism, Ketones metabolism, Ketones pharmacology, Medicago sativa microbiology, Sinorhizobium meliloti drug effects, Sinorhizobium meliloti metabolism
Abstract

Surface motility and biofilm formation are behaviours which enable bacteria to infect their hosts and are controlled by different chemical signals. In the plant symbiotic alpha-proteobacterium Sinorhizobium meliloti, the lack of long-chain fatty acyl-coenzyme A synthetase activity (FadD) leads to increased surface motility, defects in biofilm development and impaired root colonization. In this study, analyses of lipid extracts and volatiles revealed that a fadD mutant accumulates 2-tridecanone (2-TDC), a methylketone (MK) known as a natural insecticide. Application of pure 2-TDC to the wild-type strain phenocopies the free-living and symbiotic behaviours of the fadD mutant. Structural features of the MK determine its ability to promote S. meliloti surface translocation, which is mainly mediated by a flagella-independent motility. Transcriptomic analyses showed that 2-TDC induces differential expression of iron uptake, redox and stress-related genes. Interestingly, this MK also influences surface motility and impairs biofilm formation in plant and animal pathogenic bacteria. Moreover, 2-TDC not only hampers alfalfa nodulation but also the development of tomato bacterial speck disease. This work assigns a new role to 2-TDC as an infochemical that affects important bacterial traits and hampers plant-bacteria interactions by interfering with microbial colonization of plant tissues., (© 2018 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2018
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45. Functional identification of the prnABCD operon and its regulation in Serratia plymuthica.

Author

Liu X, Yu X, Yang Y, Heeb S, Gao S, Chan KG, Cámara M, and Gao K

Subjects
Mutation, Quorum Sensing physiology, Gene Expression Regulation, Bacterial, Operon genetics, Pyrrolnitrin biosynthesis, Serratia genetics
Abstract

The antibiotic pyrrolnitrin (PRN) is a tryptophan-derived secondary metabolite that plays an important role in the biocontrol of plant diseases due to its broad-spectrum of antimicrobial activities. The PRN biosynthetic gene cluster remains to be characterised in Serratia plymuthica, though it is highly conserved in PRN-producing bacteria. To better understand PRN biosynthesis and its regulation in Serratia, the prnABCD operon from S. plymuthica G3 was cloned, sequenced and expressed in Escherichia coli DH5α. Furthermore, an engineered strain prnind which is a conditional mutant of G3 prnABCD under the control of the Ptac promoter was constructed. This mutant was able to overproduce PRN with isopropylthiogalactoside (IPTG) induction by overexpressing prnABCD, whilst behaving as a conditional mutant of G3 prnABCD in the absence of IPTG. These results confirmed that prnABCD is responsible for PRN biosynthesis in strain G3. Further experiments involving lux-/dsRed-based promoter fusions, combined with site-directed mutagenesis of the putative σ S extended -10 region in the prnA promoter, and liquid chromatography-mass spectrometry (LC-MS) analysis extended our previous knowledge about G3, revealing that quorum sensing (QS) regulates PRN biosynthesis through cross talk with RpoS, which may directly activated prnABCD transcription. These findings suggest that PRN in S. plymuthica G3 is produced in a tightly controlled manner, and has diverse functions, such as modulation of cell motility, in addition to antimicrobial activities. Meanwhile, the construction of inducible mutants could be a powerful tool to improve PRN production, beyond its potential use for the investigation of the biological function of PRN.

Published
2018
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46. Pathophysiology of thrombotic thrombocytopenic purpura and hemolytic uremic syndrome.

Author

Kremer Hovinga JA, Heeb SR, Skowronska M, and Schaller M

Subjects
Autoantibodies immunology, Genetic Predisposition to Disease, Hemolytic-Uremic Syndrome genetics, Hemolytic-Uremic Syndrome immunology, Hemolytic-Uremic Syndrome microbiology, Humans, Mutation, Prognosis, Purpura, Thrombotic Thrombocytopenic enzymology, Purpura, Thrombotic Thrombocytopenic genetics, Purpura, Thrombotic Thrombocytopenic immunology, Risk Factors, ADAMTS13 Protein blood, ADAMTS13 Protein deficiency, ADAMTS13 Protein genetics, ADAMTS13 Protein immunology, Complement Pathway, Alternative genetics, Complement System Proteins genetics, Complement System Proteins immunology, Hemolytic-Uremic Syndrome physiopathology, Purpura, Thrombotic Thrombocytopenic physiopathology, Shiga-Toxigenic Escherichia coli pathogenicity
Abstract

Thrombotic microangiopathies are rare disorders characterized by the concomitant occurrence of severe thrombocytopenia, microangiopathic hemolytic anemia, and a variable degree of ischemic end-organ damage. The latter particularly affects the brain, the heart, and the kidneys. The primary forms, thrombotic thrombocytopenic purpura (TTP) and hemolytic uremic syndrome (HUS), although their clinical presentations often overlap, have distinctive pathophysiologies. TTP is the consequence of a severe ADAMTS-13 deficiency, either immune-mediated as a result of circulating autoantibodies, or caused by mutations in ADAMTS-13. HUS develops following an infection with Shiga-toxin producing bacteria, or as the result of excessive activation of the alternative pathway of the complement system because of mutations in genes encoding complement system proteins., (© 2018 International Society on Thrombosis and Haemostasis.)

Published
2018
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48. In Silico and in Vitro-Guided Identification of Inhibitors of Alkylquinolone-Dependent Quorum Sensing in Pseudomonas aeruginosa.

Author

Soukarieh F, Vico Oton E, Dubern JF, Gomes J, Halliday N, de Pilar Crespo M, Ramírez-Prada J, Insuasty B, Abonia R, Quiroga J, Heeb S, Williams P, Stocks MJ, and Cámara M

Subjects
Transcription Factors genetics, Transcription Factors metabolism, Anti-Bacterial Agents chemistry, Biofilms, Molecular Docking Simulation, Pseudomonas aeruginosa physiology, Quinolones metabolism, Quorum Sensing drug effects, Transcription Factors antagonists & inhibitors
Abstract

Pseudomonas aeruginosa is a major opportunistic pathogen in cystic fibrosis, wound and nosocomial infections, posing a serious burden to public health, due to its antibiotic resistance. The P. aeruginosa Pseudomonas Quinolone System ( pqs ) quorum sensing system, driven by the activation of the transcriptional regulator, PqsR (MvfR) by alkylquinolone (AQ) signal molecules, is a key player in the regulation of virulence and a potential target for the development of novel antibacterial agents. In this study, we performed in silico docking analysis, coupled with screening using a P. aeruginosa mCTX::P pqsA - lux chromosomal promoter fusion, to identify a series of new PqsR antagonists. The hit compounds inhibited pyocyanin and alkylquinolone signal molecule production in P. aeruginosa PAO1-L and PA14 strains. The inhibitor Ia , which showed the highest activity in PA14, reduced biofilm formation in PAO1-L and PA14, increasing their sensitivity to tobramycin. Furthermore, the hepatic and plasma stabilities for these compounds were determined in both rat and human in vitro microsomal assays, to gain a further understanding of their therapeutic potential. This work has uncovered a new class of P. aeruginosa PqsR antagonists with potential for hit to lead optimisation in the search for quorum sensing inhibitors for future anti-infective drug discovery programs., Competing Interests: The authors declare no conflicts of interest.

Published
2018
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49. Optimised chronic infection models demonstrate that siderophore 'cheating' in Pseudomonas aeruginosa is context specific.

Author

Harrison F, McNally A, da Silva AC, Heeb S, and Diggle SP

Subjects
Bacterial Proteins genetics, Bacterial Proteins metabolism, Genome, Bacterial, Humans, Iron metabolism, Mutation, Pseudomonas aeruginosa genetics, Whole Genome Sequencing, Pseudomonas Infections microbiology, Pseudomonas aeruginosa physiology, Siderophores metabolism
Abstract

The potential for siderophore mutants of Pseudomonas aeruginosa to attenuate virulence during infection, and the possibility of exploiting this for clinical ends, have attracted much discussion. This has largely been based on the results of in vitro experiments conducted in iron-limited growth medium, in which siderophore mutants act as social 'cheats:' increasing in frequency at the expense of the wild type to result in low-productivity, low-virulence populations dominated by mutants. We show that insights from in vitro experiments cannot necessarily be transferred to infection contexts. First, most published experiments use an undefined siderophore mutant. Whole-genome sequencing of this strain revealed a range of mutations affecting phenotypes other than siderophore production. Second, iron-limited medium provides a very different environment from that encountered in chronic infections. We conducted cheating assays using defined siderophore deletion mutants, in conditions designed to model infected fluids and tissue in cystic fibrosis lung infection and non-healing wounds. Depending on the environment, siderophore loss led to cheating, simple fitness defects, or no fitness effect at all. Our results show that it is crucial to develop defined in vitro models in order to predict whether siderophores are social, cheatable and suitable for clinical exploitation in specific infection contexts.

Published
2017
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50. The Pseudomonas putida CsrA/RsmA homologues negatively affect c-di-GMP pools and biofilm formation through the GGDEF/EAL response regulator CfcR.

Author

Huertas-Rosales Ó, Romero M, Heeb S, Espinosa-Urgel M, Cámara M, and Ramos-González MI

Subjects
Bacterial Proteins genetics, Bacterial Proteins metabolism, Cyclic GMP metabolism, Escherichia coli Proteins metabolism, Phosphorus-Oxygen Lyases metabolism, Pseudomonas putida genetics, RNA-Binding Proteins genetics, Repressor Proteins genetics, Biofilms growth & development, Cyclic GMP analogs & derivatives, Gene Expression Regulation, Bacterial, Pseudomonas putida metabolism, RNA-Binding Proteins metabolism, Repressor Proteins metabolism
Abstract

Expression of cfcR, encoding the only GGDEF/EAL response regulator in Pseudomonas putida, is transcriptionally regulated by RpoS, ANR and FleQ, and the functionality of CfcR as a diguanylate cyclase requires the multisensor CHASE3/GAF hybrid histidine kinase named CfcA. Here an additional level of cfcR control, operating post-transcriptionally via the RNA-binding proteins RsmA, RsmE and RsmI, is unraveled. Specific binding of the three proteins to an Rsm-binding motif (5'CANGGANG3') encompassing the translational start codon of cfcR was confirmed. Although RsmA exhibited the highest binding affinity to the cfcR transcript, single deletions of rsmA, rsmE or rsmI caused minor derepression in CfcR translation compared to a ΔrsmIEA triple mutant. RsmA also showed a negative impact on c-di-GMP levels in a double mutant ΔrsmIE through the control of cfcR, which is responsible for most of the free c-di-GMP during stationary phase in static conditions. In addition, a CfcR-dependent c-di-GMP boost was observed during this stage in ΔrsmIEA confirming the negative effect of Rsm proteins on CfcR translation and explaining the increased biofilm formation in this mutant compared to the wild type. Overall, these results suggest that CfcR is a key player in biofilm formation regulation by the Rsm proteins in P. putida., (© 2017 The Authors. Environmental Microbiology published by Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2017
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