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51	Phenol Soluble Modulins et lipopolysaccharide de Legionella pneumophila : rôle dans la réponse immunitaire innée / Phenol Soluble Modulines caracterisation and role of lipopolysaccharide in innate immune response to Legionella pneumophila. Ranc, Anne-Gaëlle 02 February 2018 (has links) Legionella pneumophila (Lp) est une bactérie ubiquitaire dans les environnements aqueux et responsable d’une pneumopathie potentiellement sévère : la légionellose. La majorité des souches impliquées appartiennent au sérogroupe 1 (Lp1) et à un sous- groupe spécifique de souches portant un épitope particulier dites mAb3/1+. Cependant, la différence de distribution entre les souches retrouvées dans l’environnement et celles impliquées en clinique n’est pas clairement élucidée. Notre travail a porté sur la détection de deux facteurs de virulence de Lp. Nous avons voulu mettre en évidence l’existence de Phenols Soluble Modulines (PSMs), peptides uniquement décrit chez Staphylocoques et avons ainsi pu démontrer l’activité de peptides prédits par analyse in silico chez Lp capables d’activer la réponse inflammatoire par la voie du NF-?B et sont dotés d’une action cytotoxique. Notre deuxième axe d’étude a porté sur le lipopolysaccharide (LPS) de Lp. Afin de vérifier si la prédominance de certaines souches était liée à un biais diagnostique, nous avons voulu tout d’abord vérifier la sensibilité de 3 tests urinaires diagnostiques envers le LPS extrait de souches de différents sous- groupes de Lp1 et sérogroupes de Lp et avons ainsi pu montrer que ces tests sont capables de détecter tous les LPS de Lp1. La sensibilité envers le LPS des autres sérogroupes est très variable mais reste insuffisante pour permettre leur détection. Nous avons ensuite utilisé ces LPS extraits pour vérifier la réponse immunitaire innée en fonction des souches de Lp1. Ainsi les souches mAb3/1+ activent moins le système immunitaire que les souches mAb3/1-, ce qui pourrait expliquer alors une moins bonne clairance de ces souches permettant leur multiplication à l’origine d’une infection. Au final, notre travail a permis d’étudier deux facteurs de virulence potentiels au sein de Lp, pouvant expliquer partiellement la prédominance de certaines souches en pathologie humaine / Legionella pneumophila (Lp) is a ubiquitous intracellular bacterium found widely in the environment and is the cause of an opportunistic infection named legionellosis. The majority of the strains involved belong to serogroup 1 (Lp1) and to a specific subgroup named mAb3/1+, linked to a specific epitope expressed at the cell membrane. However the distribution difference between the strains found in the environment and the ones involved in pathology is not fully understood. We here studied two virulence factors of Lp. We first demonstrated the existence of Phenols Soluble Modulines (PSMs), smalls peptides that only have been described for Staphylococcus and found that the peptides that were predicted for Lp by in silico analysis were able to activate the innate immune response by NF-?B pathway and were able to have a cytotoxic activity. We also studied the lipopolysaccharide (LPS) of Lp. To found out if the predominance of some strains was linked to a diagnosis biais, we first evaluated the sensitivity of 3 urinary antigens tests against extracted LPS of strains belonging to all the sous-groups of Lp1 and serogroups of Lp. We then demonstrated that those tests are able to detect all LPS of Lp1, independently of mAb3/1 character. The sensitivities of the 3 tests were very variable for the other serogroups of Lp, but were too low to be able to detect those LPS in practice. We then used these extracted LPS to evaluate the innate immune response for different strains of Lp1. We demonstrated that mAb3/1- strains needed lower dose of LPS to activate the innate immune response than mAb3/1+ strains, which could be linked to a better clearance of the bacteria from the host, which doesn’t develop an infection. This work has studied two potentially virulent factors of Lp, which could partially explain the predominance of some strains of Lp in human pathology Legionella pneumophila PSMs Lipopolysaccharide Facteurs de virulence Legionella pneumophila PSMs Lipopolysaccharide Virulence factors 579
52	Virulência de linhagens de Rhodococcus equi isoladas de linfonodo de suínos e javalis (Sus scrofa) de abatedouros / Guazzelli, Alessandro. January 2009 (has links) Orientador: Marcio Garcia Ribeiro / Banca: José Paes de Almeida Nogueira Pinto / Banca: Rogerio Giuffrida / Resumo: A rodococose suína compreende doença infecciosa caracterizada por linfadenites piogranulomatosas. Diferentes fatores de virulência são reconhecidos na patogenicidade de Rhodococcus equi. A estrutura da parede celular bacteriana, a viabilidade no interior de fagócitos e na ausência de ferro, a produção de citotoxinas, a resistência aos antimicrobianos convencionais e, recentemente, a presença de proteínas associadas à virulência (Vap) reguladas por plasmídios, são considerados os principais mecanismos de virulência do microrganismo. Diferentes fatores de virulência foram avaliados em 23 (6,1%) linhagens de R. equi isoladas de 378 linfonodos submandibulares e mesentéricos de suínos e javalis (Sus scrofa). Foram realizados exames microbiológicos em 129 linfonodos apresentando lesões (linfadenite) e 129 sem lesões (controle) de suínos, e 60 linfonodos com lesões e 60 sem lesões de javalis. Dentre as 23 linhagens de R. equi, 19 (7,4%) foram isoladas de suínos, das quais 17 obtidas de linfonodos com lesões e duas sem lesões. Das 19 linhagens de suínos, 18 (94,7%) foram obtidos de linfonodos submandibulares e um (5,3%) de mesentérico. As quatro (3.3%) linhagens de R. equi isoladas de javalis foram obtidas exclusivamente de linfonodos com lesões. Destes, três foram obtidos de linfonodos submandibulares e um de mesentérico. Dentre nove antimicrobianos testados, azitromicina (100,0%), gentamicina (100,0%), levofloxacina (100,0%), vancomicina (100,0%), amoxicillina/ácido clavulânico (94,7%), eritromicina (94,7%) e rifampicina (94,7%) foram os fármacos mais efetivos. Baixa ocorrência de resistência aos antimicrobianos nos isolados de suínos foi observada contra os fármacos testados. A concentração inibitória mínima (MIC90) da azitromicina, eritromicina e rifampicina foi observada, respectivamente, em ≤2 µg/mL, ≤0,5 µg/mL and ≤1 µg/mL... (resumo completo, clicar acesso eletrônico abaixo) / Abstract: The rhodococcosis in swine comprise an infectious disease characterized by pyogranulomatous lymphadenitis. Different virulence factors are recognized in pathogenicity of the Rhodococcus equi. The structure of bacterial cell wall, the viability inside of phagocytes and in absence of iron, the production of cytotoxins, the resistance to conventional antimicrobials and recently, the presence of proteins associated to virulence (Vap) regulated by plasmids, are considered the most important virulence mechanisms of microorganism. Different virulence factors were evaluated in 23 (6.1%) R. equi strains isolated from 378 submandibular and mesenteric lymph nodes of swine and wild boars (Sus scrofa). Microbiological exams were performed in 129 lymph nodes presenting lesions (lymphadenitis) and 129 without lesions (controls) from swine, and 60 lymph nodes with lesions and 60 without lesions from wild boars. Among 23 R. equi strains, 19 (7.4%) were isolated from swine and, from these, 17 were obtained from lymph nodes with lesions and two without lesions. From 19 strains isolated from swine, 18 (94.7%) were obtained of submandibular lymph nodes and one (5.3%) from mesenteric. The four (3.3%) R. equi strains isolated from wild boars were obtained exclusively of lymph nodes presenting lesions. From these, three were obtained from submandibular lymph nodes and one of mesenteric. Among nine antimicrobials tested, azithromycin (100.0%), gentamicin (100.0%), levofloxacin (100.0%), vancomycin (100.0%), amoxicillin/clavulanic acid (94.7%), erythromycin (94.7%) and rifampin (94.7%) were the most-effective drugs. Low rates of resistance to antimicrobials in swine isolates were observed against drugs tested. The inhibitory minimal concentration of 90% of isolates (MIC90) with use of azithromycin, erythromycin and rifampin were observed respectively in 2 μg/mL, 0.5 μg/mL and 1 μg /mL... (Complete abstract click electronic access below) / Mestre Suínos - Doenças. Javali - Doenças. Virologia veterinária. Virulence factors. eng Wild boars. eng Rhodococcus equi. eng
53	Molecular mechanisms of brain derived neurotrophic factor secretion and action / Gunther, Erik Christian. January 2000 (has links) Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 106-118).
54	Die Rolle verschiedener Virulenzfaktoren von Streptococcus pneumoniae bei der Meningitis: Untersuchung am Mausmodell / The role of virulence factors of Streptococcus pneumoniae in meningitis: mouse model study Kunst, Tammo Helmut 15 September 2015 (has links) No description available. 610 Streptococcus pneumoniae virulence factors mouse model bacterial titer meningeal inflammatory score Medizin (PPN619874732)
55	The characterization of PrpZ and PrkY, two eukaryotic-type proteins of Salmonella enterica serovar Typhi / Gros, Pierre-Paul. January 2009 (has links) The intracellular human pathogen Salmonella enterica serovar Typhi (S. typhi) causes the systemic disease known as typhoid fever. This disease afflicts approximately 17,000,000 people every year, of which over 600,000 cases are fatal. / Sequencing of the S. typhi genome has allowed a better understanding of the pathogenesis caused by this bacterium. In silico research on the genome sequence identified three open reading frames, termed prpZ gene cluster, present in the Ty2 and multi-drug resistant CT18 strains of S. typhi but absent in all other sequenced serovars of S. enterica. Further analysis of this gene cluster revealed that the three genes are transcribed as an operon that encodes two eukaryotic-like Ser/Thr kinases (PrkX and PrkY) and a protein phosphatase 2C (PP2C) (PrpZ). / A previous study has shown that the recombinant His-PrpZ protein has all the hallmarks of a PP2C. Typically, PP2Cs hydrolyze phosphoserine and phosphothreonine residues. In addition, His-PrpZ was found to hydrolyze phosphotyrosine residues, making it a dual specificity phosphatase. A subsequent investigation implicates the prpZ gene cluster in S. typhi virulence as the survival of a prpZ operon deletion mutant is compromised after 48 hours of macrophage infection when compared to wild type bacteria. / It is clear from these results that the prpZ operon plays a role in the pathogenesis of S. typhi. To determine the role of these three genes in virulence, an in vitro characterization of PrkY was carried out as well as an examination of the possible physiological roles of PrpZ. / We have demonstrated that PrkY is an active protein kinase capable of phosphorylating artificial substrates in the presence of Mg2+ and/or Mn2+. Optimal phosphorylation of substrates is achieved in the presence of 5mM Mg2+ at pH 8.0. In addition, we have identified a putative interaction between PrkY and PrpZ, leading to an inhibition of the kinase activity of PrkY. While exploring the possible physiological functions of PrpZ, we have found that this protein is secreted by Ty2 S. typhi in both LB and in the low pH, low phosphate and low Mg 2+ LPM medium. / These findings suggest that PrkY and PrpZ may have antagonistic effects in a S. typhi specific virulence pathway involved in the modulation of host cell signaling by secreted bacterial virulence factors. Salmonella typhi -- genetics. Virulence Factors -- genetics.
56	Characterization of PilP from the Type IV Pilus System of Pseudomonas aeruginosa Tammam, Stephanie 16 December 2013 (has links) Pathogenic bacteria employ a number of mechanisms to induce infection and survive in host tissues, including toxin secretion and the formation of protective multicellular structures called biofilms. Type IV Pili (T4P) are highly conserved organelles essential for both the establishment of infection and biofilm maturation. The goal of this research is to gain a molecular level understanding of the function of the highly dynamic T4P of Pseudomonas aeruginosa. The pilMNOPQ operon encodes 5 members of a transmembrane complex that facilitates pilus function. While PilQ is the putative outer membrane secretin through which the pilus exits the cell, the roles of the PilM/N/O/P proteins are less well defined. Using both in vivo and in vitro techniques our characterization of PilP has provided significant insight into organization of the apparatus. PilP is an inner membrane lipoprotein essential for T4P function, but lipidation is dispensable, suggesting that its interactions with other T4P components are sufficient for PilP function. We showed that PilN/O/P form a stable heterotrimer when expressed in E. coli, and we suggest that they form a similar subcomplex in P. aeruginosa. Additionally we were able to show that PilP is also able to interact with a periplasmic fragment of the outer membrane pore protein PilQ. Structural and bioinformatics studies suggest that the organization of PilN/O/P/Q complex is similar to that of the transenvelope complex of another important Gram-negative virulence factor – the Type II Secretion System (T2SS). Our structural and functional characterization of PilP, the PilN/O/P complex and the striking similarities between the T4P and T2S systems, as well as important differences that make each molecular machine unique, will be presented. P. aeruginosa virulence factors protein-protein interactions Type IV Pili 0306 0410 0307
57	Characterization of PilP from the Type IV Pilus System of Pseudomonas aeruginosa Tammam, Stephanie 16 December 2013 (has links) Pathogenic bacteria employ a number of mechanisms to induce infection and survive in host tissues, including toxin secretion and the formation of protective multicellular structures called biofilms. Type IV Pili (T4P) are highly conserved organelles essential for both the establishment of infection and biofilm maturation. The goal of this research is to gain a molecular level understanding of the function of the highly dynamic T4P of Pseudomonas aeruginosa. The pilMNOPQ operon encodes 5 members of a transmembrane complex that facilitates pilus function. While PilQ is the putative outer membrane secretin through which the pilus exits the cell, the roles of the PilM/N/O/P proteins are less well defined. Using both in vivo and in vitro techniques our characterization of PilP has provided significant insight into organization of the apparatus. PilP is an inner membrane lipoprotein essential for T4P function, but lipidation is dispensable, suggesting that its interactions with other T4P components are sufficient for PilP function. We showed that PilN/O/P form a stable heterotrimer when expressed in E. coli, and we suggest that they form a similar subcomplex in P. aeruginosa. Additionally we were able to show that PilP is also able to interact with a periplasmic fragment of the outer membrane pore protein PilQ. Structural and bioinformatics studies suggest that the organization of PilN/O/P/Q complex is similar to that of the transenvelope complex of another important Gram-negative virulence factor – the Type II Secretion System (T2SS). Our structural and functional characterization of PilP, the PilN/O/P complex and the striking similarities between the T4P and T2S systems, as well as important differences that make each molecular machine unique, will be presented. P. aeruginosa virulence factors protein-protein interactions Type IV Pili 0306 0410 0307
58	Characterization of Polysaccharide Biosynthesis, Structure and Regulation in Vibrio vulnificus Nakhamchik, Alina 20 January 2009 (has links) Vibrio vulnificus are marine bacteria causing fatal septicemia through wound infections or consumption of contaminated seafood. V. vulnificus is an excellent model for the study of surface polysaccharides, as it is capable of synthesizing capsular polysaccharide (CPS), lipopolysaccharide (LPS) and exopolysaccharide (EPS). V. vulnificus strains exhibit a multitude of carbotypes that evolve through unknown mechanisms. CPS is a confirmed virulence factor, but the genetics of its biosynthesis are unknown. The main objective of these experiments was to gain insight into the biosynthesis, regulation and evolution of ATCC 27562 outer surface polysaccharides. A miniTn10 transposon (Tn) system was used for mutagenesis and single insertions were confirmed through Southern analysis. A novel 25 kb CPS biosynthesis locus was identified through sequencing of regions surrounding Tn insertions; a region encoding putative LPS core biosynthetic functions was identified adjacent to the CPS cluster. The CPS locus contained features of O-antigen biosynthetic loci and was unusual in carrying characteristics of both group I and IV capsular biosynthetic loci. Mutations in this region resulted in elimination of CPS and LPS, and both were shown to be dependent on the activity of the polymerase Wzy. Evidence is presented here supporting horizontal transfer (HT) as a contributor to V. vulnificus CPS evolution. CPS regions of V. vulnificus 27562, YJ016 and CMCP6 contain strain specific genes surrounded by conserved regions, suggestive of HT. Moreover, a CPS locus virtually identical to that of 27562 was discovered in Shewanella putrefaciens strain 200. 27562 CPS is distinctive as it contains N-acetylmuramic acid. Genes encoding murA and murB activities were identified within the cluster and shown to be functionally redundant, supporting HT acquisition of this region. A screen of V. vulnificus gDNA library using CPS biosynthesis and transport mutants identified a cyclic diguanylate cyclase, dcpA. dcpA-mediated increase in cyclic diguanylate lead to EPS production, rugosity phenotypes and enhanced biofilm formation. Interestingly, virulence and motility were not affected suggesting complexity of cyclic diguanylate regulation in V. vulnificus, supported by the large number of cyclic diguanylate related proteins in Vulnificus strains. Polysaccharide biosynthesis Vibrio vulnificus virulence factors capsule lipopolysaccharide cyclic diguanylate horizontal gene transfer 0410 0307 0369
59	Genotypic and phenotypic characterisation of Staphylococcus epidermidis isolated from prosthetic joint infections Hellmark, Bengt January 2011 (has links) Staphylococcus epidermidis has emerged in recent years as an important nosocomial pathogen, especially in infections associated with implanted foreign body materials (e.g., prosthetic joints and heart valves) and in individuals with a compromised immune system (e.g., cancer patients and neonates). Although rare, implant infections are long lasting and cause severe suffering for the patient that includes pain and disability and even increased mortality. One aim of the present thesis was to develop and evaluate a genetic method for species identification and simultaneous detection of rifampicin resistance in staphylococci. A second aim was to examine S. epidermidis isolated from prosthetic joint infections (PJIs) and from wrists and nares of healthy individuals regarding their antibiotic susceptibility, biofilm production, virulence factors, and epidemiology. Comparison with phenotypic diagnostics revealed that 8 (16%) of 49 isolates differed in their species identification in favour of the genetic method. In addition, mutations associated with rifampicin resistance, including two not previously reported, were possible to detect in all isolates resistant to rifampicin. Antibiotic susceptibility testing of 61 PJI isolates showed multi-drug resistance in 91%. Furthermore, the results of the synergy testing revealed that no antibiotic combination was significantly better than the others. Hence, the effects that were possible to detect were isolate dependent. To find a method for discriminating between invasive (n=61) and commensal (n=24) isolates of S. epidermidis genotypic and phenotypic characterisations of biofilm production (including the ica and aap genes), antibiotic susceptibility, virulence-related genes (such as agr and ACME) and epidemiology were performed (using multilocus sequence typing [MLST], typing of the staphylococcal chromosome cassette mec [SCCmec] and PhenePlate). Significant differences were found in antibiotic susceptibility, i.e. there was more resistance among invasive isolates. MLST sequence types (ST) ST2 and ST215 dominated the invasive isolates. Staphylococcus epidermidis prosthetic joint infections antibiotic susceptibility virulence factors epidemiology MLST agr SCCmec MEDICINE MEDICIN
60	Characterization of a novel acetyltransferase found only in pathogenic strains of Mycobacterium tuberculosis Crossman, David K. January 2007 (has links) (PDF) Thesis (Ph. D.)--University of Alabama at Birmingham, 2007. / Title from first page of PDF file (viewed Feb. 19, 2008). Includes bibliographical references.

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