Secretoma da bactéria fitopatogênica Xanthomonas citri subsp. citri /

Ferreira, Rafael Marini.

January 2009

Resumo: O cancro cítrico está entre as principais doenças que afetam a produção de laranjas no Brasil e é causado pela bactéria fitopatogênica gram-negativa Xanthomonas citri subsp. citri (Xac). O presente trabalho teve por objetivo analisar a expressão diferencial de proteínas secretadas pela bactéria selvagem e por um mutante (02H02) assintomático, que teve a proteína HrpB4, que participa de seu sistema de secreção tipo III (SSTT) inativada, em condição de cultivo em meio rico CN e em meio XAM1 indutor de hipersensibilidade e patogenicidade (genes hrp). As proteínas secretadas em meio de cultura foram extraídas pela ação do ácido tricloroacético (TCA) e identificadas através de espectrometria de massas. Tais análises identificaram 55 proteínas diferentes secretadas em ambos os meios de cultura, tanto para Xac quanto para 02H02, de modo que 13 destas proteínas são comuns entre a Xac e seu mutante cultivados em XAM1 e 14 são exclusivas para Xac cultivada em XAM1, as quais deixaram de ser secretadas no 02H02. Proteínas relacionadas aos genes reguladores do SSTT foram detectadas em condição infectante para ambas as bactérias, demonstrando a eficácia do meio de cultura XAM1 em induzir Hrp. Foi observado que diversas proteínas secretadas pelo sistema de secreção tipo II (SSTD) em condição infectante para Xac e seu mutante possuem um papel ativo na degradação das paredes celulares do hospedeiro e podem ser reguladas por proteínas controladoras do SSTT. Fatores de sinalização difusíveis produzidos por Xac aparentemente sofreram alteração em sua secreção no mutante devido à inativação do pilus do SSTT, demonstrando a relação dessa molécula com o SSTT. A não detecção de proteínas secretadas diretamente pelo SSTT denota que as mesmas podem estar sendo secretadas no interior de vesículas lipídicas de membrana externa, assim como ocorre em Xanthomonas campestris / Abstract: Citrus canker is among the major diseases which affect citrus production in Brazil and is caused by the gram-negative phytopathogenic bacterium Xanthomonas citri subsp. citri (Xac). This work aimed to analyze the differential expression of secreted proteins by the wild bacterium and by an asymptomatic mutant (02H02), lacking the type III secretion system (TTSS) protein HrpB4, in rich cultivation medium NB and in the hrp inducing medium XAM1. The proteins secreted in all culture media have been extracted by trichloroacetic acid based protocols (TCA) and identified using mass spectrometry. The analysis identified 55 different proteins secreted in both culture medium for Xac and 02H02, of which 13 are common among Xac and its mutant cultivated in XAM1 and 14 proteins are exclusively secreted by Xac cultivated in XAM1. Proteins related to the TTSS regulatory genes have been detected in infecting condition in both bacteria, showing the effectiveness of XAM1 hrp inducing medium. It has been observed that several type II secretion system's secreted proteins showed an active role in host cell wall degradation and may be regulated by type III secretion system's proteins in Xac and 02H02 in infecting condition. Diffusible signal factors produced by wild Xac apparently suffered an altered secretion in the mutant due the inactivation of the type three secretion system's pilus, showing the relationship of this molecule with this secretion system. The lack of detection of proteins secreted by the TTSS denote that these proteins may be secreted in the interior of outer membrane lipid vesicles, just like it was verified in Xanthomonas campestris / Orientador: Jesus Aparecido Ferro / Coorientador: Julio Cezar Franco de Oliveira / Banca: Maria Teresa Marques Novo / Banca: Leandro Márcio Moreira / Mestre

Cancro citrico.

Xanthomonas campestris.

Plant pathogen interactions. eng

Pathogenicity inducing medium. eng

Secreted proteins. eng

Citrus canker proteome. eng

Type III secretion systems (TTSS) eng

Secretoma da bactéria fitopatogênica Xanthomonas citri subsp. citri

Ferreira, Rafael Marini [UNESP]

05 November 2009

Made available in DSpace on 2014-06-11T19:26:09Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-11-05Bitstream added on 2014-06-13T20:33:53Z : No. of bitstreams: 1 ferreira_rm_me_jabo.pdf: 510263 bytes, checksum: 543073ee3d6f55d77bb1607889dc966f (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O cancro cítrico está entre as principais doenças que afetam a produção de laranjas no Brasil e é causado pela bactéria fitopatogênica gram-negativa Xanthomonas citri subsp. citri (Xac). O presente trabalho teve por objetivo analisar a expressão diferencial de proteínas secretadas pela bactéria selvagem e por um mutante (02H02) assintomático, que teve a proteína HrpB4, que participa de seu sistema de secreção tipo III (SSTT) inativada, em condição de cultivo em meio rico CN e em meio XAM1 indutor de hipersensibilidade e patogenicidade (genes hrp). As proteínas secretadas em meio de cultura foram extraídas pela ação do ácido tricloroacético (TCA) e identificadas através de espectrometria de massas. Tais análises identificaram 55 proteínas diferentes secretadas em ambos os meios de cultura, tanto para Xac quanto para 02H02, de modo que 13 destas proteínas são comuns entre a Xac e seu mutante cultivados em XAM1 e 14 são exclusivas para Xac cultivada em XAM1, as quais deixaram de ser secretadas no 02H02. Proteínas relacionadas aos genes reguladores do SSTT foram detectadas em condição infectante para ambas as bactérias, demonstrando a eficácia do meio de cultura XAM1 em induzir Hrp. Foi observado que diversas proteínas secretadas pelo sistema de secreção tipo II (SSTD) em condição infectante para Xac e seu mutante possuem um papel ativo na degradação das paredes celulares do hospedeiro e podem ser reguladas por proteínas controladoras do SSTT. Fatores de sinalização difusíveis produzidos por Xac aparentemente sofreram alteração em sua secreção no mutante devido à inativação do pilus do SSTT, demonstrando a relação dessa molécula com o SSTT. A não detecção de proteínas secretadas diretamente pelo SSTT denota que as mesmas podem estar sendo secretadas no interior de vesículas lipídicas de membrana externa, assim como ocorre em Xanthomonas campestris / Citrus canker is among the major diseases which affect citrus production in Brazil and is caused by the gram-negative phytopathogenic bacterium Xanthomonas citri subsp. citri (Xac). This work aimed to analyze the differential expression of secreted proteins by the wild bacterium and by an asymptomatic mutant (02H02), lacking the type III secretion system (TTSS) protein HrpB4, in rich cultivation medium NB and in the hrp inducing medium XAM1. The proteins secreted in all culture media have been extracted by trichloroacetic acid based protocols (TCA) and identified using mass spectrometry. The analysis identified 55 different proteins secreted in both culture medium for Xac and 02H02, of which 13 are common among Xac and its mutant cultivated in XAM1 and 14 proteins are exclusively secreted by Xac cultivated in XAM1. Proteins related to the TTSS regulatory genes have been detected in infecting condition in both bacteria, showing the effectiveness of XAM1 hrp inducing medium. It has been observed that several type II secretion system’s secreted proteins showed an active role in host cell wall degradation and may be regulated by type III secretion system’s proteins in Xac and 02H02 in infecting condition. Diffusible signal factors produced by wild Xac apparently suffered an altered secretion in the mutant due the inactivation of the type three secretion system’s pilus, showing the relationship of this molecule with this secretion system. The lack of detection of proteins secreted by the TTSS denote that these proteins may be secreted in the interior of outer membrane lipid vesicles, just like it was verified in Xanthomonas campestris

Cancro cítrico

Xanthomonas campestris

Secretoma

Plant pathogen interactions

Pathogenicity inducing medium

Secreted proteins

Citrus canker proteome

Type III secretion systems (TTSS)

New insights into small molecules inhibitors and protein-protein interactions of VirB8 : a critical conserved component of the type IV secretion system

Um Nlend, Ingrid

06 1900

No description available.

infections bactériennes

pathogènes

bactéries à Gram-négatif

facteur de virulence

virulence

médicaments d’antivirulence

intéractions protéine-protéine

Bacterial infections

secretion systems

systèmes de sécrétion

pathogens

Gram-negative bacteria

virulence factors

antivirulence drugs

protein-protein interactions

Caractérisation fonctionnelle de BamB, protéine impliquée dans la biogénèse de la membrane externe et la virulence de Salmonella / Functional caracterization of BamB, a protein involved in outer-membrane biogenesis and Salmonella virulence

Namdari, Fatémeh

26 March 2013

La protéine BamB est une lipoprotéine de membrane externe appartenant au complexe BAM (β-Barrel Assembly Machinery) et impliquée dans l’assemblage des protéines de membrane externe (PME), la sensibilité aux antibiotiques, le contrôle de l’expression des trois systèmes de sécrétion de type III (T3SS) et la virulence de Salmonella. Chez E. coli, au sein du complexe BAM, elle interagit directement avec la protéine BamA. De plus, chez cette bactérie, BamB présente une activité sérine-thréonine kinase. Afin de mieux caractériser le rôle de BamB, nos objectifs ont été d’étudier (1) l’impact de l’altération de l’interaction de BamB avec le complexe BAM ou de sa séquestration dans le cytoplasme sur l’ensemble des rôles décrits de BamB et (2) l’activité kinase putative de BamB chez Salmonella. Nos résultats montrent que certains rôles de BamB sont dissociables entre eux et que l’interaction BamA/BamB n’est pas requise pour le rôle de BamB dans le contrôle de l’expression des T3SS, la virulence de Salmonella et l’assemblage des PME à la membrane externe. Aucune activité kinase ni aucune activité cytoplasmique de la protéine n’a pu être formellement démontrée. / BamB is an outer-membrane lipoprotein belonging to the BAM complex (β-Barrel Assembly Machinery). In Salmonella, it is involved in the assembly of outer membrane proteins (OMP), in antibiotic susceptibility, in the transcriptional control of the three Type-Three-Secretion-Systems (T3SS) related genes and also in virulence. In E. coli, BamB interacts directly with the BamA protein. Moreover, BamB has been shown to have a serine-threonin kinase activity in this bacterium. In order to better characterize the roles of the BamB protein, our purposes were to study (1) the impact of the alteration of the interaction of BamB with the BAM complex or of its cytoplasmic sequestration and (2) its putative kinase activity in Salmonella. Our results show that some of the BamB roles are dissociable and that the BamA/BamB interaction is not required for T3SS expression, Salmonella virulence or OMP assembly in the outer membrane. Currently, neither a kinase activity nor a cytoplasmic activity has been clearly demonstrated for this protein.

Salmonella

BamB

Complexe BAM

Biogénèse de la membrane externe

Protéines de membrane externe (PME)

Virulence

Salmonella

BamB

BAM complex

Outer-membrane biogenesis

Outer membrane proteins (OMP)

Type III-secretion systems (T3SS)

Virulence

Rôles des voies de signalisation à di-GMP cyclique chez Legionella pneumophila / Roles of cyclic di-GMP signaling pathways in Legionella pneumophila

Allombert, Julie

15 September 2014

Legionella pneumophila est une bactérie aquatique qui prolifère en se répliquant à l’intérieur de cellules amibiennes. Elle peut persister dans ces environnements en vivant en communauté sous forme de biofilms. L’inhalation par l’Homme d’eau contaminée, vaporisée par les réseaux d’eau chaude ou les tours aéro‐réfrigérantes, peut mener à l’infection des macrophages pulmonaires qui se traduit par une grave pneumonie appelée légionellose. Le di‐GMP cyclique (diGMPc) est impliqué, chez diverses espèces bactériennes, dans la transition entre les modes de vie mobiles et sessiles, et chez certains pathogènes, dans la régulation de la virulence. Mon travail de thèse vise à démontrer l’implication des voies de signalisation à diGMPc dans le contrôle de la virulence et de la formation de biofilms par L. pneumophila. Cette implication a été étudiée grâce à l’inactivation systématique de chacun des gènes codant les protéines du métabolisme du diGMPc chez la souche L. pneumophila Lens. Notre étude a révélé que trois de ces protéines, Lpl0780, Lpl0922 et Lpl1118, sont spécifiquement requises pour le contrôle de la virulence et, plus particulièrement, pour la survie précoce lors de l’infection de cellules‐hôtes via l’orchestration de la sécrétion de facteurs de virulence dans la cellule‐hôte. Lpl1118 participerait également à la biogénèse de la vacuole de réplication. Cinq autres de ces protéines sont impliquées dans la régulation de la formation et de l’architecture des biofilms. L’une d’elles est, plus particulièrement, requise pour la formation de biofilms en présence d’oxyde nitrique. Ces résultats contribuent à une meilleure compréhension de l’organisation complexe et spécifique des voies de signalisation à diGMPc chez L. pneumophila et pourraient permettre d’envisager une lutte plus efficace contre ce pathogène / Legionella pneumophila is a bacterium that proliferates in fresh water environments through the replication within amoebas. These bacteria can persist in these environments through biofilm formation. The inhalation of aerosolized contaminated water through hot water systems or cooling towers can induce the infection of human lungs, leading to a severe pneumonia called legionellosis. Cyclic di‐GMP (c‐di‐GMP) in involved, in various bacterial species, in the motility‐to‐sessility transition, and in some pathogens, in virulence control. My work aims to demonstrate the involvement of signaling pathways that use c‐di‐GMP in virulence control and biofilm formation of L. pneumophila. This involvement was investigated by systematically inactivating each gene encoding a c‐di‐GMP‐metabolizing enzyme in L. pneumophila Lens strain. Our work revealed that 3 of these proteins, Lpl0780, Lpl0922 and Lpl1118 are specifically involved in virulence control and, particularly, in the early survival during host cell infection through the orchestration of virulence factors secretion within host cell. Lpl1118 is particularly required for replicative vacuole biogenesis. Five other proteins, participate in the formation and architecture of biofilms. One of them is more specifically involved in biofilm formation in the presence of nitric oxide. These results help to better understand the complexity and the specificity of c‐di‐GMP signaling pathways in L. pneumophila and should allow the exploration of more effective ways to fight this pathogen

Relation hôte-pathogène

Virulence

Legionella pneumophila

Biofilms

Di-GMP cyclique

Système de sécrétion de type IV

GGDEF

EAL

Host-pathogen relationship

Virulence

Legionella pneumophila

Biofilms

Cyclic di-GMP

Type IV secretion systems

GGDEF

EAL

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