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31	Étude de la variation de phase des fimbriae F1651, Pap et CS31A et de l'impact des régulateurs homologues de PapI Lavoie, Rémi 04 1900 (has links) Les Escherichia coli pathogènes extra-intestinaux (ExPEC) sont responsables d’une grande variété de maladies. Plus particulièrement, certaines souches ExPEC, du sous-groupe d’E. coli uropathogènes, sont porteuses de fimbriae de type P. Cette famille d’adhésines est soumise à une régulation transcriptionnelle appelée variation de phase; un mécanisme du tout ou rien. Il s’agit d’une compétition entre deux protéines régulatrices : la Dam méthylase et la nucléoprotéine Lrp. Ce mécanisme est aussi soumis à l’influence des régulateurs locaux PapB et PapI, deux régulateurs essentiels. Afin d’étudier PapI et ses homologues ainsi que leur impact sur la variation de phase des fimbriae F1651, Pap et CS31A. Grâce à une fusion chromosomique entre la région régulatrice de clp et les gènes lacZYA, nous avons étudié l’effet, en trans, de PapI et FooI qui ont pu restaurer la variation de phase avec une forte tendance pour la phase OFF. Pour étudier l’action de ces protéines sur foo et pap, nous avons utilisé un système utilisant gfp comme gène rapporteur de l’activité des promoteurs des opérons pap et foo. Cela a permis d’observer la variation de phase au niveau cellulaire par cytométrie en flux et en temps réel par microscopie à fluorescence. Ces expériences ont confirmé que la population de cellules F1651 positives a un phénotype d’expression de F1651 partielle alors que les cellules Pap sont en majorité en phase OFF. PapI et FooI n’ont pas la même influence sur la variation de phase, puisque FooI favorise une plus grande fréquence de variation de phase. / Escherichia coli extra-intestinal pathogenic (ExPEC) are responsible for a wide variety of diseases. Particularly ExPEC strains from the subset called uropathogenic E.coli (UPEC) are carrying fimbriae type P. This adhesin family is subject to transcriptional regulation called phase variation, an all or nothing mechanism. It is a competition between two regulatory proteins: the Dam methylase and the nucleoprotein Lrp. This mechanism is also under the influence of the local regulators PapB and PapI. These two regulators are essential to the phase variation. We therefore sought to investigate PapI and its homologs and their impact on the phase variation of fimbriae F1651, Pap, and CS31A. By means of a chromosomal fusion between the regulatory region of clp gene and lacZYA, we studied the effect in trans of PapI and FooI which could restore the phase variation with a strong tendency to phase OFF. To study the action of PapI and FooI, we used a system with gfp as a reporter gene in operons pap and foo. This allowed the observation of the phase variation at the cellular level by flow cytometry and real-time fluorescence microscopy. These experiments confirmed that the population of F165 positive cells have a partial expression state whereas Pap cells mostly have an OFF expression state. We also confirmed that FooI and PapI do not have the same influence on phase variation and that FooI promotes greater frequency of phase variation. Escherichia coli Virulence Fimbriae Variation de phase Lrp Pap Foo Clp Adhésine Escherichia coli Virulence Fimbriae Phase variation Lrp Pap Foo Clp Adhesin
32	Development of a synthetic peptide vaccine and antibody therapeutic for the prevention and treatment of Pseudomonas Aeruginosa infection / Kao, Daniel Joseph. January 2007 (has links) Thesis (Ph.D. in Pharmacology) -- University of Colorado Denver, 2007. / Typescript. Includes bibliographical references (leaves 203-212; 260-261). Free to UCD affiliates. Online version available via ProQuest Digital Dissertations;
33	Étude de la variation de phase des fimbriae F1651, Pap et CS31A et de l'impact des régulateurs homologues de PapI Lavoie, Rémi 04 1900 (has links) No description available. Escherichia coli Virulence Fimbriae Variation de phase Lrp Pap Foo Clp Adhésine Escherichia coli Virulence Fimbriae Phase variation Lrp Pap Foo Clp Adhesin
34	Caractérisation des systèmes à deux composants Roc chez Pseudomonas aeruginosa : un reseau de régulation complexe / Characterization of the Roc Two-component systems in Pseudomonas aeruginosa : a complex regulatory network Sivaneson, Melissa 26 November 2010 (has links) Pseudomonas aeruginosa est une bactérie à Gram négatif à caractère ubiquitaire que l’on retrouve dans une grande diversité d’environnements. C’est un pathogène opportuniste qui est responsable chez l’homme d’infections chroniques ou aigües qui peuvent être mortelles pour des patients immuno-déficients. L’établissement d’une infection chronique est généralement associé à la capacité de la bactérie à former un biofilm, qui se définit comme une population bactérienne attachée sur une surface et englobée par une matrice extracellulaire formée entre autre depolysaccharides. La formation du biofilm est un processus bien défini dans le temps et dans l’espace et qui implique la mise en jeu de nombreuses structures de surfaces dont l’assemblage est strictement contrôlé. Une des voies de régulation contrôlant cet assemblage est le système à 2composants Roc1 (« regulation of cup genes »). Les gènes cup codent des composants de la voie « chaperone-usher » qui permet le transport de sous-unités pilines et leur assemblage à la surface bactérienne sous forme de pili. Ces pili Cup sont important dans l’établissement du biofilm. Le système Roc1 est aussi impliqué dans la mise en place du système de sécrétion de type III, qui est communément associé aux infections aigues. De fait le système Roc1 peut être considéré comme un «interrupteur» décidant du mode d’infection associé à P. aeruginosa. Le système Roc1 est constitué d’un senseur non-orthodoxe (RocS1) et de deux régulateurs de réponse, RocA1 et RocR, dont le domaine effecteur est un domaine de liaison à l’ADN ou un domaine EAL à activité phosphodiesterase, respectivement. Il existe également d’autres gènes paralogues de Roc1 qui sont le système Roc2 avec RocS2 et RocA2 très similaire à RocS1 et RocA1, ainsi que RocS3 similaire à RocS1. Le travail réalisé au cours de ma thèse a montré qu’il existe une régulation croisée entre Roc1 etRoc2. Cependant, chacune des branches du réseau de régulation contrôle l’expression d’une série de gènes bien spécifiques. Nous avons montré que la signalisation via RocS2 et RocS1 lorsqu’elle converge sur RocA1 contrôle l’expression des gènes cupC et ce contrôle est totalement indépendantde RocA2. Par contre lorsque la signalisation RocS1 et RocS2 converge vers RocA2 alors ce sont les gènes mexAB-oprM, qui codent une pompe d’efflux impliquée dans la résistance aux antibiotiques, dont l’expression est alors réprimée.En conclusion, nous avons mis en évidence un modèle unique de régulation croisée qui résulte dans un effet antagoniste entre formation du biofilm et résistance aux antibiotiques. Si cela peut paraître inattendu, quelques données cliniques sont en faveur d’une telle balance. En effet, l’analyse de souches de P. aeruginosa, isolées à partir de patients atteints de mucoviscidose, révèle que dans ces isolats la pompe MexAB-OprM est inactive. La raison de cette adaptation n’est pas élucidée, mais l’absence de pompe fonctionnelle pourrait procurer un avantage, une meilleure aptitude à la souche à persister dans cet environnement. Il est également reconnu que dans les poumons de ces patients le mode préféré de développement pour P. aeruginosa est le biofilm. Mises bout à bout ces observations suggèrent donc que le système Roc pourrait être un système de régulation important pour percevoir l’environnement du poumon chez le patient mucoviscidosique et déclencher une réponse adaptée. / The opportunistic pathogen Pseudomonas aeruginosa is responsible for diverse chronic and acute infections in human. Chronic infections are associated with the capacity of P. aeruginosa to form biofilms. One of the pathways controlling biofilm formation is the Roc1 two-component system, involved in the regulation of cup genes allow the assembly of thin fimbriae at the surface of the bacterium. Cup fimbiae are important in biofilm formation. There exist paralogues of the Roc1 system - the Roc2 and Roc3 system. The work in this thesis has shown that cross-regulation occurs between Roc1 and Roc2. However, each branch in this network appears to control the expression of a specific subset of genes whose role and functions are striking in the context of an infection process. We characterized here a unique model of cross-regulation which results in the antagonistic regulation of biofilm formation and antibiotic resistance Biofilm Cupc Fimbriae CupB Two-component system Antibiotic resistance MexAB-OprM
35	Vaccins à base de plante comme alternatives aux antibiotiques : évaluation du potentiel d'un extrait de tabac contenant rFaeGntd/dsc d’Escherichia coli entérotoxigénique (ETEC) à induire une réponse immunitaire chez le procelet sevré. Bourdages, Nadia January 2016 (has links) La diarrhée post-sevrage causée par Escherichia coli entérotoxigénique présentant le fimbriae F4 (ETEC F4+) cause actuellement des pertes économiques importantes dans l’industrie porcine canadienne. Afin de mieux contrôler cette maladie, et afin d’offrir une alternative à l’utilisation excessive d’antibiotiques, le projet décrit dans ce mémoire évalue la capacité de la sous-unité majeure du fimbriae F4, FaeG, à protéger les porcelets contre ETEC F4+. Trois phases animales ont été réalisées afin de tester séparément et de façon combinée l’effet de FaeG sous forme d’émulsion orale et sous forme d’injection intramusculaire (IM). Les analyses de dosages d’anticorps spécifiques et de proliférations lymphocytaires effectuées sur les échantillons recueillis à chaque phase animale permirent d’évaluer la réponse immunitaire mucosale et systémique. Les résultats finaux obtenus ont démontré un effet des injections IM sur l’activation de la production d’anticorps sanguins ainsi que sur la prolifération de cellules mononucléées sanguines (CMS). L’évaluation de l’expression de différents gènes dans les ganglions mésentériques et dans la muqueuse iléale a permis d’observer une modulation de l’expression de certains gènes (TLR4, NFκBIA, IFNg, CCL20, CXCL2, IL4 et IL17), mais également l’absence de modulation sur plusieurs gènes attendus. Au final, certains effets secondaires observés lors des immunisations de la dernière phase animale, tels que la diarrhée, la difficulté à respirer et la faiblesse, ont nécessité des analyses supplémentaires. Il a ainsi été déterminé que plusieurs porcelets ont subi une réaction de type anaphylactique aux immunisations reçues à la dernière phase animale, bien que la composante exacte causant cette réaction soit inconnue. En conclusion, bien qu’une réponse immunitaire puisse être déclenchée par FaeG, d’autres études seront nécessaires afin de développer un vaccin oral contre ETEC F4+ Escherichia coli entérotoxigénique Diarrhée post-sevrage Fimbriae F4 Porcelets Vaccin oral Sous-unité majeure FaeG
36	Fundamental Investigation of Biological Interactions for Applications in Infection Prevention and Biomaterial Development Liu, Yatao 12 September 2008 (has links) "Bacterial infections persist as a public threat due to the ease by which bacteria adapt to commonly used antibiotics. In addition, bacteria on surfaces develop protective communities called biofilms that hinder the ability of antibiotics to completely eliminate the pathogens. The rapid development of bacterial resistance to antibiotics has made pharmaceutical companies reluctant to fund new antibiotics research. Hence, novel approaches to prevent and treat infections are needed. The development of infections can be divided into three steps: adhesion, invasion and multiplication. Antibiotics target at the latter two step and are prone to bacterial resistance as passive strategies. Bacterial adhesion to host cells/implanted medical devices is the first step leading to following invasion and multiplication. However, fundamental understanding of bacterial adhesion process is still lacking. The current studies are aimed to systematically investigate biological interactions between pathogenic bacteria and host cell, proteins and biomaterials with both macro and micro scale approaches. The macro scale methods include bacterial adhesion assay, viability studies, and thermodynamic modeling. The micro scale methods include direct adhesion force measurements, ultra surface visualization via atomic force microscopy (AFM) and surface structure modeling. Our work combines experiments and modeling aimed at understanding the initial steps of the bacterial adhesion process, focusing on two case studies: 1) Mechanisms by which cranberry can prevent urinary tract infections through interfering with bacterial adhesion; and 2) Design of anti-adhesive and antimicrobial coatings for biomaterials. We make direct adhesion force measurements between bacteria and substrates with an atomic force microscope (AFM), and combine such experiments with thermodynamic calculations, in order to develop a set of tools that allows for the prediction of whether bacteria will attach to a given surface. These fundamental investigations of the bacterial adhesion process help elucidate the underlying mechanisms behind bacterial adhesion, thus leading to improved clinical outcomes for a number of biomedical applications. " bacterial adhesion biomaterial development cranberry urinary tract infection biological interactions atomic force microscopy Staphylococcus epidermidis fimbriae
37	Investigating the effects of cranberry juice on the physicochemical properties of Escherichia coli for the prevention of urinary tract infections Pinzon-Arango, Paola A. 09 January 2008 (has links) The adhesion of bacteria to uroepithelial cells or urinary catheters is the first step in the development of biofilm formation and urinary tract infections (UTIs). Previous research has suggested that consumption of cranberry juice can prevent the recurrence of UTIs by decreasing bacterial adhesion since isolated compounds in cranberries, known as A-type proanthocyanidins (PACs), change the conformation of proteinaceous fimbriae that help attach bacteria to epithelial cell receptors. Most clinical and laboratory studies have shown the effects of cranberry juice cocktail (CJC) on large communities of bacteria; however, very few studies have evaluated how cranberry affects the adhesion forces of a single bacterium as well as effects on cellular composition and biofilm formation. We used atomic force microscopy (AFM) to investigate the effects of CJC and PACs on the adhesion forces between E. coli and a silicon nitride tip. Bacterial cultures were grown in tryptic soy broth (TSB), supplemented with 0 and 10 wt.% light cranberry juice cocktail (L-CJC) or 128 µg/mL PACs. E. coli bacteria were continuously cultured in the presence of cranberry products up to twelve times. Experiments were conducted at different scales to test bacterial attachment and adhesion forces. At the macroscale, bacteria were incubated with uroepithelial cells and the number of bacteria attached per uroepithelial cell was determined. In nanoscale experiments, the forces of adhesion between E. coli and a silicon nitride AFM tip were probed for bacteria grown in L-CJC or PACs for different numbers of culture times. Successive replacement of media and continued culture in L-CJC and PACs resulted in a significant decrease in adhesion forces for E. coli strains. Finally, during the continuous exposure of L-CJC to bacteria we examined the growth, morphology, and ability to form biofilms of E. coli. We found a decrease in growth rates related to changes in Gram staining with increasing number of cultures in L-CJC. Growth of bacteria in L-CJC or PACs inhibited the development of biofilms on polyvinyl-chloride, which can model biofilm formation on urinary catheters. We also determined that growth of E. coli in L-CJC results in prevention of the expression of indole which can be linked to the inhibition of biofilm formation. Our results help support the molecular mechanisms for the role of cranberry in preventing the adhesion of E. coli to biotic and abiotic surfaces, thus helping to scientifically validate the use of cranberry juice as a prophylactic treatment for the prevention of UTIs. proanthocyanidins fimbriae Bacterial adhesion Urinary tract infections Cranberries Therapeutic use Bacterial adhesion
38	The role of cyclic di-GMP in regulating type 3 fimbriae : a colonization factor of Klebsiella pneumonia Murphy, Caitlin Nolan 01 May 2014 (has links) Klebsiella pneumoniae is a Gram negative, enteric bacterium that frequently causes disease in immunocompromised individuals. These types of infections are often associated with the presence of indwelling medical devices, which provide a site for the organism to attach and subsequently form a biofilm. A key component in K. pneumoniae biofilm formation in vitro is type 3 fimbriae. The two main components of this project have been to determine if type 3 fimbriae are an in vivo virulence factor using a mouse model of catheter associated urinary tract infection (CAUTI) and to examine the mechanism by which the production of type 3 fimbriae are regulated. Using a mouse model in which a silicone tube is implanted into the bladder of mice, mimicking the effects of catheterization, we have been able to show that type 3 fimbriae are required for colonization and persistence. Using different time points and conditions, we demonstrated that there are conditions when type 3 fimbriae alone are sufficient for colonization and other conditions where both type 1 and type 3 fimbriae have unique roles in colonization and persistence. Additionally, competition experiments showed that neither fimbrial mutant alone, or a double mutant in type 1 and type 3 fimbriae could compete with wildtype K. pneumoniae. In most animals, only wild-type bacteria were recovered by 24 hours post-inoculation. This work reinforced the role of type 1 fimbriae in pathogenesis and showed, for the first time, a role for type 3 fimbriae using an in vivo model. Our early work has indicated that type 3 fimbriae are regulated at least in part by the intracellular levels of the secondary messenger molecule cyclic di-GMP. Downstream from the type 3 fimbrial operon a gene encoding a phosphodiesterase is present; the product of this gene breaks down cyclic di-GMP. In the absence of this gene the levels of type 3 fimbrial expression are increased. Also adjacent to the mrk operon is a two-gene operon containing the determinants we have named mrkH and mrkI. mrkH encodes a PilZ domain containing protein, which we have shown binds cyclic di-GMP. Using a transcriptional fusion we have shown that the mrk gene promoter is activated modestly in the presence of MrkH, but when MrkH and MrkI are both present the activity is increased 100-fold. This has lead to the hypothesis that MrkH and MrkI interact, which we have been able to demonstrate using copurification procedures. This interaction appears to occur in a cyclic di-GMP dependent manner with the resulting protein complex binding to the mrk promoter region and activating the expression of type 3 fimbriae. cyclic di-GMP Klebsiella pneumoniae Type 3 fimbriae Microbiology
39	Shear stress enhances bacterial adhesion / Thomas, Wendy Evelyn. January 2003 (has links) Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (leaves 96-101).
40	Molecular analysis of transcription factors in uropathogenic E. coli adhesin operons / Molekylär analys av transkriptionsfaktorer i adhesin operon hos uropatogena E. coli Lindberg, Stina January 2009 (has links) The main causative agent of human urinary tract infections is the uropathogenic Escherichia coli (UPEC) pathotype. It may cause disease due to its ability to express a number of bacterial virulence factors. Fimbrial adhesins are particularly important for the initial establishment of infection in the urinary tract. The fimbriae are hair-like structures protruding from the bacterial cell and by attaching to specific receptors in the urinary tract they mediate adherence to different cell types, allowing the bacteria to resist the shear forces from urine flow. The UPEC strains generally carry multiple determinants for fimbrial adhesins. Previous studies have indicated that there is a co-regulation between different fimbrial genes and one factor that has been implicated in this is the PapB protein, acting as a transcriptional regulator of P-fimbrial expression. The PapB protein can be regarded as the prototype of a family of fimbrial regulators that show high homology between different fimbrial operons. One homolog is FocB, regulator of F1C fimbriae. In this study, the role of the FocB protein in the regulation of F1C fimbriae as well as in the co-regulation with other fimbrial genes was investigated. It was observed that FocB binds to DNA, similarly to PapB, in an oligomeric fashion and that PapB and FocB can form hetero-oligomeric complexes, which appear to have a repressive role in the regulation of the F1C fimbriae. In addition, the FocB protein also had a repressive effect on transcription of the fim operon, which encodes theType 1 fimbriae. For further analysis of FocB in vitro, we developed efficient procedures for purification of the protein and established conditions for its crystal formation with the aim to conduct X-ray diffraction studies. By the hanging-drop vapour-diffusion method, we obtained crystals that in the X-ray analysis diffracted sufficiently well to allow modelling of a high resolution structure of FocB. The structural model was considered in relation to the DNA binding properties of the protein. The FocB analysis represents the first structural model of this family of transcriptional factors. This model should aid in further understanding of the roles and functions of these proteins in the regulation of the UPEC fimbrial operons. The complexity of the system, with multiple factors involved in the regulation of fimbrial operons, was revealed in earlier studies of the PapI protein showing that PapI activates transcription of the pap operon as a part of a complex with the global regulator Lrp. However, PapI itself did not appear to bind to DNA and its mode of action has remained unclear. By genetic analyses and in vitro studies we show that PapI may interact also with the α subunit of the RNA polymerase. This finding indicates that PapI might directly interact with the transcriptional apparatus and thus aid in the activation of pap expression. Bacteria are frequently releasing outer membrane vesicles (OMVs) from their surface. We studied the release of the haemolysin toxin from E. coli in connection with formation of OMVs and found that the toxin was tightly associated with the vesicles in an active form. By overproduction of the PapB or PapI regulators in order to maximise the population of bacteria expressing fimbriae, we could detect P fimbriae proteins associated with OMVs that displayed specific adhesion to receptor-coated beads. This suggests a possible scenario in which the vesicles canfunction as directed vehicles of bacterial virulence factors. UPEC E. coli F1C P fimbriae cross-talk FocB PapB crystal structure OMVs Medical microbiology Medicinsk mikrobiologi

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