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Identification and characterization of type III effector proteins in plant-associated bacteriaThomas, William J. 04 May 2012 (has links)
Symbioses between microbes and multicellular eukaryotes are found in all biomes, and encompass a spectrum of symbiotic lifestyles that includes parasitism and disease, commensalism, and mutually beneficial interdependent host-microbe relationships. Regardless of outcome, these symbiotic lifestyles are governed by a complex molecular "courtship" between microbe and potential host. This courtship is the primary determinant of the host range of a given microsymbiont. Host immunity poses a formidable barrier to the establishment of host-microbe relationships, and the majority of microbial suitors will be thwarted by it. Only by successfully "wooing" the host cell's immune defenses with the appropriate molecular signals can a microsymbiont successfully colonize its host.
A strategy common to microsymbionts across the spectrum of symbiotic lifestyles and host organisms is the delivery of microbial-encoded effector proteins into the cytoplasm of host cells to manipulate the host cell's molecular machinery for the purposes of subverting host immunity. Bacteria, in particular, have adapted a number of secretion systems for this purpose. The most well-characterized of these is the type III secretion system (T3SS), a molecular apparatus that specializes in injecting type III effector (T3Es) proteins directly into host cells. The work in this thesis focuses on T3Es of plant-associated bacteria, with particular emphasis on mutualistic bacteria. We present evidence that collections of T3Es from Sinorhizobium fredii and Bradyrhizobium japonicum are, in stark contrast to those of phytopathogenic bacteria, in a co-evolutionary equilibrium with their hosts. This equilibrium is characterized by highly conserved T3E collections consisting of many "core" T3Es with little variation in nucleotide sequence. The T3Es of Mesorhizobium loti MAFF303099 suggest a completely different picture of the evolution of T3Es. MAFF303099 recently acquired its T3SS locus, and the work in this thesis provides an evolutionary snapshot of a mutualist that is innovating a T3E collection primarily through horizontal gene transfer. Collectively, this work represents the first comprehensive catalog of T3Es of rhizobia and, in the case of Sinorhizobium and Bradyrhizobium, the first evidence of purifying selection for T3Es. / Graduation date: 2012
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Identifikation und funktionelle Charakterisierung von Effektorproteinen des Typ III Sekretionssystems von Chlamydophila pneumoniae / Identification and funktionell characterisation of effector proteins of the type III secretion system of chlamydophila pneumoniaeMüller, Nicole 28 October 2008 (has links)
No description available.
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Efeito de ExoU na ativação de NF-κB e na secreção de IL-8 por células humanas infectadas por Pseudomonas aeruginosa / Effect of Exou on the activation of the NF-κB and the secretion of the IL-8 in human cells infected with PseudomonasCarolina Diettrich Mallet de Lima 29 July 2011 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / ExoU, uma citotoxina produzida pelo patógeno oportunista Pseudomonas aeruginosa e translocada para o citossol de células hospedeiras via sistema de secreção do tipo III, é associada à gravidade de infecções agudas. Estudos anteriores realizados em nosso laboratório relataram a potente atividade pró-inflamatória de ExoU, responsável por um intenso recrutamento de neutrófilos para o sítio de infecção. No presente trabalho, o efeito de ExoU na modulação da ativação do fator transcricional NF-κB e na regulação da expressão e da secreção da quimiocina para neutrófilos IL-8 foi avaliado em culturas de células epiteliais respiratórias e endoteliais humanas infectadas com a cepa PA103 de P. aeruginosa (produtora de ExoU) ou com a mutante deletada no gene exoU, PA103κexoU. Análises por RT-PCR semi-quantitativo mostraram que a infecção pela cepa produtora de ExoU levou ao aumento dos níveis de mRNA de IL-8, enquanto ensaios de alteração da mobilidade eletroforética (EMSA), supershift e com gene repórter mostraram que ExoU induziu a translocação nuclear do heterodímero transativador p65/p50 de NF-κB e a ativação da transcrição de genes dependente deste fator transcricional. Adicionalmente, o tratamento das culturas celulares com um inibidor de NF-κB antes da infecção bacteriana reduziu significativamente os níveis de mRNA de IL-8 e da secreção desta quimiocina. Em conjunto, estes resultados mostram que ExoU ativa NF-κB e, consequentemente, estimula a expressão e a secreção de IL-8 por células epiteliais respiratórias e células endoteliais infectadas com P. aeruginosa / ExoU, a cytotoxin produced by the opportunistic pathogen Pseudomonas aeruginosa that is translocated into host cell cytosol by the type three secretory system, has been associated with severity of acute infections. We have previously described the potent ExoU proinflammatory activity, which accounts for a market recruitment of neutrophils to infected tissues. In this present study, the effect of ExoU on the activation of the transcriptional factor NF-B and on the regulation of the expression and secretion of the chemokine IL-8 was investigated in human epithelial respiratory and endothelial cell cultures infected with the ExoU-producing PA103 P. aeruginosa or with the bacterial mutant with the deletion of the exoU gene PA103exoU. By semi-quantitative RT-PCR, ExoU was shown to significantly increase the expression of IL-8 mRNA. By electrophoretic mobility shift assay (EMSA), supershift and reporter assay ExoU was shown to induce the nuclear translocation of the NF-κB p65/p50 transactivator heterodimer as well as the NF-κB-dependent transcriptional activity. In addition, treatment both the IL-8 mRNA expression and the protein secretion. Together, our results show that ExoU activates NF-B and stimulates IL-8 expression and secretion by P. aeruginosa-infected human epithelial respiratory and endothelial cells
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Role proteinu BopN v sekrečním aparátu typu III u bakterií rodu Bordetellae / BopN function in the Bordetella type III secretion systemKincová, Veronika January 2018 (has links)
Species of the Bordetella genus cause the highly contagious whooping cough disease in humans (B. pertussis, B. parapertussis) and related respiratory diseases in other mammals (B. bronchiseptica, B. parapertussis). One of the virulence systems of Bordetellae is the type III secretion system (T3SS) employed for translocation of effector proteins directly from bacterial cytosol into the cytosol of host cells. The T3SS protein BopN protein has been categorized as a Bordetella effector protein. Nevertheless, the homologous proteins in other gram-negative bacteria function in establishing the secretion hierarchy through T3SS and some of them block T3SS secretion in high calcium environments before bacteria-host cell contact has been established. In this thesis I examined the function of the BopN protein and the role of calcium ions in T3SS activity of B. bronchiseptica. Two independent methods have been used for determination of T3SS secretion activity. Addition of 2 mM calcium ions into bacterial media decreased secretion of the T3SS reporter, while no such effect was observed in a B. bronchiseptica strain lacking the bopN gene. Mass spectrometry data confirmed the inhibition of T3SS activity in the presence of calcium ions. Enhanced calcium levels resulted in decreased mobilization and secretion of...
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Efeito de ExoU na ativação de NF-κB e na secreção de IL-8 por células humanas infectadas por Pseudomonas aeruginosa / Effect of Exou on the activation of the NF-κB and the secretion of the IL-8 in human cells infected with PseudomonasCarolina Diettrich Mallet de Lima 29 July 2011 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / ExoU, uma citotoxina produzida pelo patógeno oportunista Pseudomonas aeruginosa e translocada para o citossol de células hospedeiras via sistema de secreção do tipo III, é associada à gravidade de infecções agudas. Estudos anteriores realizados em nosso laboratório relataram a potente atividade pró-inflamatória de ExoU, responsável por um intenso recrutamento de neutrófilos para o sítio de infecção. No presente trabalho, o efeito de ExoU na modulação da ativação do fator transcricional NF-κB e na regulação da expressão e da secreção da quimiocina para neutrófilos IL-8 foi avaliado em culturas de células epiteliais respiratórias e endoteliais humanas infectadas com a cepa PA103 de P. aeruginosa (produtora de ExoU) ou com a mutante deletada no gene exoU, PA103κexoU. Análises por RT-PCR semi-quantitativo mostraram que a infecção pela cepa produtora de ExoU levou ao aumento dos níveis de mRNA de IL-8, enquanto ensaios de alteração da mobilidade eletroforética (EMSA), supershift e com gene repórter mostraram que ExoU induziu a translocação nuclear do heterodímero transativador p65/p50 de NF-κB e a ativação da transcrição de genes dependente deste fator transcricional. Adicionalmente, o tratamento das culturas celulares com um inibidor de NF-κB antes da infecção bacteriana reduziu significativamente os níveis de mRNA de IL-8 e da secreção desta quimiocina. Em conjunto, estes resultados mostram que ExoU ativa NF-κB e, consequentemente, estimula a expressão e a secreção de IL-8 por células epiteliais respiratórias e células endoteliais infectadas com P. aeruginosa / ExoU, a cytotoxin produced by the opportunistic pathogen Pseudomonas aeruginosa that is translocated into host cell cytosol by the type three secretory system, has been associated with severity of acute infections. We have previously described the potent ExoU proinflammatory activity, which accounts for a market recruitment of neutrophils to infected tissues. In this present study, the effect of ExoU on the activation of the transcriptional factor NF-B and on the regulation of the expression and secretion of the chemokine IL-8 was investigated in human epithelial respiratory and endothelial cell cultures infected with the ExoU-producing PA103 P. aeruginosa or with the bacterial mutant with the deletion of the exoU gene PA103exoU. By semi-quantitative RT-PCR, ExoU was shown to significantly increase the expression of IL-8 mRNA. By electrophoretic mobility shift assay (EMSA), supershift and reporter assay ExoU was shown to induce the nuclear translocation of the NF-κB p65/p50 transactivator heterodimer as well as the NF-κB-dependent transcriptional activity. In addition, treatment both the IL-8 mRNA expression and the protein secretion. Together, our results show that ExoU activates NF-B and stimulates IL-8 expression and secretion by P. aeruginosa-infected human epithelial respiratory and endothelial cells
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Le système de sécrétion de type III de Shigella flexneri: étude de sa machinerie et hiérarchie de sécrétion / Type III secretion system of Shigella flexneri: study of its secretion machinery and hierarchyCherradi, Youness 16 October 2013 (has links)
Les bactéries du genre Shigella sont responsables de la shigellose, une maladie diarrhéique invasive du colon. L’entrée et la dissémination de Shigella à travers l’épithélium colique sont médiées par un système de sécrétion de type III (SST3) codé par un plasmide de virulence. Au sein de ce plasmide se trouve une région de 30-kb comportant les gènes impliqués dans l’entrée de la bactérie dans les cellules hôtes. Ces gènes sont regroupés en deux loci :le locus ipa-ipg qui code pour les protéines sécrétées et leurs chaperons ainsi que le locus mxi-spa codant pour les composants de l’appareil de sécrétion de type III (AST3), constitué d’un bulbe cytoplasmique, d’un corps basal transmembranaire et d’une aiguille se projetant au niveau extracellulaire. Ce système permet la sécrétion ordonnée et hiérarchique de différentes classes de protéines et la translocation de certaines d’entre elles (appelées effecteurs) dans le cytoplasme de la cellule hôte où elles interfèrent avec les voies de signalisation cellulaires. Avant le contact avec la cellule hôte, l’AST3 est inactif et verrouillé par les protéines IpaB et IpaD formant le complexe d’extrémité.<p>Chez Shigella, le gatekeeper MxiC séquestre les effecteurs au niveau du cytoplasme bactérien avant la transmission par l’aiguille du signal d’activation de la sécrétion mais les composants intermédiaires liant l’aiguille à MxiC restaient inconnus. Au cours de ce travail, nous avons montré que MxiC forme un complexe avec la sous-unité de la tige interne, MxiI, afin de bloquer l’entrée du canal de sécrétion et que cette interaction est conservée chez Yersinia et Salmonella. Nous démontrons que, suite au contact cellulaire, la dissociation de ce complexe facilite le switch de sécrétion des translocateurs aux effecteurs. Nos résultats révèlent également que MxiC est capable de s’associer au chaperon IpgC afin de réguler la sécrétion des translocateurs. De plus, nous avons identifié les domaines de MxiC engagés dans la régulation du SST3 et rapporté un nouveau rôle de MxiC dans l’échappement aux macrophage impliquant une possible inhibition de la voie apoptotique classique afin de promouvoir une pyroptose. Chez Shigella, IpaD gouverne la composition du complexe d’extrémité et est impliqué dans la régulation de la sécrétion. Nous avons développé une étude phénotypique de ses régions coiled-coil et centrale et montré que la composition du complexe d’extrémité permet de définir à la fois l’état d’inductibilité de l’AST3 et la sécrétion des effecteurs tardifs. Par ailleurs, notre étude fonctionnelle des domaines de MxiC et IpaD suggère que les capacités de Shigella à échapper au macrophage et à insérer un pore de translocation ne sont pas strictement couplées. <p>La dernière partie de ce travail s’est focalisée sur la caractérisation de la protéine Spa13 de Shigella. Nous avons découvert que le défaut de sécrétion du mutant spa13 est dû à l’instabilité de la sous-unité MxiH de l’aiguille et que Spa13 n’est pas sécrété par le SST3. Nos résultats indiquent également un rôle de Spa13 dans l’escorte de chaperons et l’activation de l’appareil d’exportation afin de promouvoir la sécrétion des substrats./Shigella is the causative agent of shigellosis, also known as bacillary dysentery, an invasive disease of the human colonic epithelium. During infection, Shigella uses a type III secretion system (T3SS) to penetrate enterocytes and to disseminate into the colonic epithelium, leading to destruction of the mucosal lining and shigellosis symptoms. Most of the virulence factors of Shigella are encoded by a large plasmid harboring a 30-kb region that is sufficient to promote bacterial entry into host cells. This entry region is organized in two loci, one corresponding to the the ipa-ipg genes encoding the secreted proteins and their cognate chaperones while the other encodes Mxi-Spa proteins that form the type III secretion apparatus (T3SA), consisting of a cytoplasmic bulb, a basal body spanning the bacterial envelope and a hollow needle. The T3SS allows the ordered and hierarchical secretion of effectors by inserting a translocation pore in the host cell membrane through which effector proteins are injected into the cytosol. Before host cell contact, the T3SA is inactive and plugged by the tip complex proteins IpaB and IpaD. <p>In Shigella, the gatekeeper MxiC is known to sequester effectors within the cytoplasm prior to receiving the activation signal from the needle but the molecules involved in linking the needle and MxiC are unknown. We demonstrated that MxiC and the predicted inner-rod component MxiI form a complex plugging the T3SA entry gate and showed that this interaction is conserved in Yersinia and Salmonella. Dissociation of this complex seems to facilitate the switch in secretion from translocators to effectors upon host cell contact. Our results also revealed that MxiC binds to the chaperone IpgC to regulate translocators secretion. Moreover, we identified the domains of MxiC involved in the T3S regulation and reported a new role in macrophage escape by potential inhibition of the classical apoptosis to promote pro-inflammatory pyroptosis. <p>In Shigella, IpaD rules the composition of the tip complex and is involved in secretion control and translocon insertion. We therefore undertook a phenotypic analysis of its coiled-coil and central regions and showed that the composition of the tip complex defines both the T3SA inducibility state and late effectors secretion. Besides, our functional study on MxiC and IpaD domains suggests that Shigella abilities to escape macrophage vacuole and to insert the translocation pore are uncoupled.<p>The last part of this work is related to the characterization of the Spa13 protein of Shigella. We found that the secretion defect of the spa13 mutant is due to the instability of the needle component MxiH and that Spa13 is not a secreted substrat. Our results also support a dual role of Spa13 as a chaperone escort and as an export gate-activator switch to promote substrates secretion. / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished
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Caracterização dos fatores sigma da RNA polimerase do fitopatógeno Xanthononas axonopodis pv. citri / Caracterization of RNA polimerase sigma factor of phythopathogen Xanthomonas axonopodis pv. citri.Maria Claudia Pereda Francischini 01 October 2010 (has links)
A citricultura é de grande importância para as atividades agrícolas brasileiras, uma vez que o Brasil é o principal produtor e exportador de suco de laranja. O cancro cítrico, causado pela bactéria Xanthomonas axonopodis pv. citri (Xac) é um grave problema nesse setor, causando um elevado prejuízo na produção de frutos e seus derivados. O fator sigma é a subunidade da RNA polimerase que tem a função de direcionar o núcleo da RNA polimerase a uma classe específica de sequências promotoras. Como a maioria das bactérias sintetiza diversos fatores sigma, essa característica proporciona à bactéria a oportunidade de manutenção basal da sua expressão gênica, assim como, a regulação em resposta a alterações ambientais e a sinais durante o desenvolvimento bacteriano. O genoma de Xac codifica para 14 fatores sigma. Nesse presente trabalho, detectamos interações dos fatores σECF (Xac2814. Xac3989, Xac0922, Xac1319, Xac1380, Xac1682, Xac4129 e Xac2191) e seus fatores anti-σ cognatos (Xac2815. Xac3988, Xac0921, Xac1320, Xac1379, Xac1681, Xac4130 e Xac2192). Além disso, observamos interações entre o fator σFliA (Xac1933) e o anti-σFlgM (Xac1989), seu fator anti-σ cognato. A caracterização das cepas nocautes para alguns fatores σ apontaram o envolvimento do fator σ54Xac1969 no mecanismo de formação de flagelo, a contribuição do fator σECFXac1682 na resposta ao choque térmico e a participação do fator σECFXac2191 no crescimento bacteriano em condições de carência de ferro. / Citriculture is an important sector of the economy of the State of São Paulo. Citrus canker, caused by Xanthomonas axonopodis pv. citri (Xac), is a devastating disease responsible for large agribusiness losses every year. several sigma factors. The sigma factor is the subunit of RNA polymerase that serves to direct the RNA polymerase core to a specific class of promoter sequences. Most bacteria code for more than one sigma factor, which provides the cell with the means by which to maintain basal gene expression while at the same time modulate the expression of specific genes in response in environmental changes and signals during bacterial growth. The Xac genome codes for 14 sigma factors which are the objects of study in this thesis. We demonstrate that many of the sigma factors of the σECF family (Xac2814, Xac3989, Xac0922, Xac1319, Xac1380, Xac1682, Xac4129 e Xac2191) interact with cognate anti- factors (Xac2815, Xac3988, Xac0921, Xac1320, Xac1379, Xac1681, Xac4130 e Xac2192). These sigma-anti-sigma pairs are all coded by neighboring genes. Interactions between the sigma factor σFliA (Xac1933) and anti-σFlgM (Xac1989) were also observed. Xac strains with gene knockouts for several sigma factors were produced. The characterization some these knockout strains point to the involvement of σ54Xac1969 in the biosynthesis of flagella, participation of σECFXac1682 in the ability to survive heat shock and involvement of σECFXac2191 in the response to iron deficiency.
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Étude de la toxicité de DspA, protéine essentielle au pouvoir pathogène d’Erwinia amylovora, chez la levure Saccharomyces cerevisiae / Analysis of the toxicity of DspA, a protein essential for the pathogenicity of Erwinia amylovora, in the yeast Saccharomyces cerevisiaeSiamer, Sabrina 01 March 2013 (has links)
La bactérie phytopathogène E. amylovora, est l'agent responsable du Feu bactérien des Spiraeoideae (pommier, poirier, pyracantha), une maladie caractérisée par l'apparition de symptômes nécrotiques des tissus infectés. Le pouvoir pathogène d’E. amylovora repose entre autre sur un système de sécrétion de type III (SSTT) qui permet la sécrétion et l'injection d'effecteurs dans la cellule hôte végétale. Parmi les protéines injectées par le T3SS d'E. amylovora, DspA est essentielle au pouvoir pathogène de la bactérie puisqu’un mutant dspA est non pathogène sur plante (Gaudriault et al., 1997). Le rôle de DspA est dual, d’une part, l’expression de dspA est suffisante pour provoquer des symptômes nécrotiques sur plante et une toxicité chez la levure, d’autre part, DspA est impliquée dans la suppression des réactions de défense telles que la déposition de callose (Degrave et al., 2008; Boureau et al., 2006; Oh et al., 2007; DebRoy et al., 2004). DspA appartient à la famille des effecteurs AvrE qui sont répandus chez les bactéries phytopathogènes et semblent posséder une fonction similaire. Cependant, peu de connaissance existe sur la structure ainsi que la fonction de DspA. L'objectif de ce travail de thèse était de déterminer les domaines ou motifs importants pour la fonction de DspA. Pour cela nous avons choisi d'effectuer une analyse in silico et fonctionnelle de la protéine DspA. L'analyse in silico révèle la présence d'un domaine bêta-propeller au sein de la protéine DspA ainsi que de tous les homologues analysés. De plus, l'analyse fonctionnelle indique que ce domaine est important pour la structure et la fonction de DspA. Dans un second temps, j'ai étudié le mécanisme d'action de DspA dans la levure Saccharomyces cerevisiae. J'ai pu mettre en évidence que l'expression de dspA chez la levure induit un arrêt de croissance et une forte altération du trafic cellulaire. L'étude de mutants de levure suppresseurs de la toxicité de DspA, effectuée avant mon arrivée au laboratoire, montre que les suppresseurs les plus forts sont affectés dans la voie de biosynthèse des sphingolipides, je me suis donc plus particulièrement intéressée au rôle des sphingolipides dans la toxicité générée par DspA. Nos résultats montrent que DspA inhibe la biosynthèse des sphingolipides indirectement via les régulateurs négatifs de la voie, les protéines Orms. / Erwinia amylovora is the causative agent of fire blight of Spiraeoideae (apple, pear, pyracantha), a disease characterized by the apparition of necrotic symptoms on infected tissues. The pathogenicity of E. amylovora relies on a functional type III secretion system (T3SS) that allows secretion and injection of effector proteins into the host plant cell. Among these effector proteins injected by the T3SS of E. amylovora, DspA is essential to the bacteria disease process since a dspA mutant is nonpathogenic on plants (Gaudriault et al., 1997). DspA has a dual role; on the one hand dspA expression is sufficient to induce cell death on plants and toxicity on yeast, on the other hand, DspA is involved on suppression of defense reactions like callose deposition (Degrave et al., 2008; Boureau et al., 2006; Oh et al., 2007; DebRoy et al., 2004). DspA belongs to the AvrE familly of type III effectors which are widespread on phytopathogenic bacteria and likely possess a similar function. However, the structure and function of DspA remain unknown. In the first part of my thesis, I attempted to characterize domains or motifs important for the function of DspA. We performed an in silico and a functional analysis of the DspA protein. In silico analysis predicted a bêta-propeller domain in DspA and all the analysed effectors. In the second part of my thesis, I analysed the mechanism of function of DspA in the yeast Saccharomyces cerevisiae. Results showed that expression of dspA in yeast inhibits cell growth and alters the actin cytoskeleton and endocytosis. Screening of the Euroscarf library for mutants resistant to DspA induced toxicity revealed that mutants impaired in the sphingolipid biosynthetic pathway are the best suppressors. Based on this results, I attempted to determine the role of sphingolipids in the toxicity induced by DspA. Results showed that DspA inhibits indirectly the sphingolipid biosynthetic pathway via the negative regulators, Orm proteins.
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