Global ETD Search

41	Bacterinas comerciais falharam em induzir resposta imune humoral em camundongos contra alguns fatores de patogenicidade de Mycoplasma hyopneumoniae / Commercial bacterins failed to induce humoral immune response in mice against some Mycoplasma hyopneumoniae pathogenicity factors Fisch, Andressa 19 February 2014 (has links) Made available in DSpace on 2014-08-20T13:32:49Z (GMT). No. of bitstreams: 1 dissertacao_andressa_fisch.pdf: 708004 bytes, checksum: 48d7e7a2a394dafd06e3209289b60dde (MD5) Previous issue date: 2014-02-19 / Enzootic Pneumoniae (EP), caused by Mycoplasma hyopneumoniae, generates significant economic losses to the pig industry worldwide. The currently available vaccines confer partial protection against the EP and the development of new vaccine strategies have proven necessary. In this paper, humoral immune response in mice of six comercial bacterins against sexteen recombinant antigens previously characterized of M. hyopneumoniae was evaluated by indirect ELISA. Seroconversion Seroconversion was used to determine biologically significant reactivity. The antigen MHP_0067 was recognized by sera from one inoculated group. The antigens MHP_0513 and MHP_0580 were recognized by sera from four inoculated groups each. For other antigens, not seroconversion was detected. Identify potentially protective antigens underexpressed in these vaccines and associate them with conventional vaccination may promote increased levels of protection. These antigens are potential targets for the composition of a recombinant subunit vaccine associated with the commercial vaccine. / A Pneumonia Enzoótica Suína (PES), causada pela bactéria Mycoplasma hyopneumoniae, gera importantes perdas econômicas para a indústria suinícola em todo o mundo. As vacinas atualmente disponíveis diminuem as perdas produtivas, mas não impedem a infecção dos rebanhos. O desenvolvimento de novas estratégias vacinais têm se mostrado necessário. Neste trabalho, avalIou-se a resposta imune humoral induzida pela inoculação, em camundongos, de seis bacterinas comerciais contra quinze fatores de patogenicidade de M. hyopneumoniae previamente caracterizados por nosso grupo. A detecção de anticorpos foi realizada através de ELISA indireto. Soroconversão foi utilizada para determinar reatividade biologicamente significativa. O antígeno MHP_0067 foi reconhecido pelo soro de um único grupo inoculado. Os antígenos MHP_0513 e MHP_0580 foram reconhecidos pelos soros de quatro grupos inoculados cada. Para os demais antígenos não houve soroconversão pelos grupos inoculados com as bacterinas comerciais. Identificar antígenos potencialmente protetores ausentes nestas vacinas e associá-los à vacinação convencional pode promover o aumento dos níveis de proteção. Estes antígenos são potenciais alvos para a composição de uma vacina de subunidade recombinante associada à vacina comercial. Pneumonia enzoótica suína Vacina comercial Anticorpo ELISA Antígeno recombinante Adesina Enzootic pneumoniae Commercial vaccine Antibody ELISA Recombinant antigen Adhesin CNPQ::CIENCIAS BIOLOGICAS::IMUNOLOGIA
42	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
43	L’apolipoprotéine A-I interagit avec l’adhésine impliquée dans l’adhérence diffuse (AIDA-I) d’Escherichia coli : rôle lors du processus d’adhésion et d’invasion René, Mélissa 05 1900 (has links) L’adhésine impliquée dans l’adhérence diffuse (AIDA-I) est une adhésine bactérienne présente chez certaines souches d’Escherichia coli qui, associée aux toxines Stx2e ou STb, contribue à l’apparition de la maladie de l’œdème ou de la diarrhée post-sevrage chez les porcelets. AIDA-I est un autotransporteur qui confère des capacités d’autoaggrégation, de formation de biofilms et d’adhésion. L’objectif principal du projet de recherche consistait en la recherche de récepteur(s) potentiel(s) d’AIDA-I. Les bactéries pathogènes adhèrent aux cellules-cibles soit en liant directement des molécules à la surface cellulaire ou en utilisant des molécules intermédiaires qui permettent de diminuer la distance séparant la bactérie de la cellule-cible. Puisque le sérum est un fluide qui contient de nombreuses molécules, celui-ci a été utilisé comme matériel de départ pour l’isolement de récepteur(s) potentiels. Nous avons isolé un récepteur potentiel à partir du sérum porcin : l’apolipoprotéine A-I. L’interaction entre l’apolipoprotéine A-I et AIDA-I a été confirmée par ELISA et microscopie à fluorescence. La capacité à envahir les cellules épithéliales offre aux pathogènes la possibilité d’établir une niche intracellulaire qui les protègent contre les attaques du milieu extérieur. La présente étude a démontré que la présence d’AIDA-I en tant que seul facteur de virulence chez une souche de laboratoire permet de conférer la capacité d’envahir les cellules sans promouvoir la survie intracellulaire. L’étude de la souche sauvage 2787, exprimant AIDA-I en association avec d’autres facteurs de virulence, a démontré une différence significative pour les phénotypes d’invasion et de survie intracellulaire face à la souche de laboratoire exprimant AIDA-I. / The adhesin involved in diffuse adherence (AIDA-I) is a bacterial adhesin associated with some Escherichia coli strains that might, when associated with toxin Stx2e or STb, contribute to the development of edema disease or post-weaning diarrhea in piglets. AIDA-I is an autotransporter that mediates various phenotypes such as adhesion, autoaggregation and biofilm formation. The main aim of our project was to find potential receptor(s) for AIDA-I. Pathogens can either bind cell directly by targeting exposed cell surface molecules or use an intermediate molecule as a bridge to lessen the space separating them from their target cell. Serum is known to contain a wide range of molecules so it has been used as raw material for the isolation of a putative receptor for AIDA-I. We isolated a putative receptor for AIDA-I: the apolipoprotein A-I. The interaction between the apolipoprotein A-I and AIDA-I was confirmed by ELISA and fluorescent microscopy. The capacity to invade epithelial cell enables pathogens to create an intracellular niche that protects them against attacks from the extracellular environment. The present report has shown that the presence of AIDA-I as the sole virulence factor in a laboratory strain, enable bacteria to invade cultured cells but does not promote intracellular survival. Studies conducted on wild-type strain 2787, which express AIDA-I in association with other virulence factors, has shown a significant difference in invasion and intracellular survival phenotypes compared to the laboratory strain expressing AIDA-I. Autotransporteur AIDA-I Escherichia coli Adhésine bactérienne Adhésion Invasion Apolipoprotéine A-I Microscopie à fluorescence Survie intracellulaire Autotransporter AIDA-I Escherichia coli Bacterial adhesin Adhesion Invasion Apolipoprotein A-I Fluorescent microscopy Intracellular survival
44	Caractérisation structurale et fonctionnelle du réseau d'interaction du Gelatin Binding Domain de la fibronectine humaine / Structural and fonctional study of interaction network of Gelatin Binding Domain Tiouajni, Mounira 06 June 2013 (has links) La matrice extracellulaire (MEC) intervient dans de nombreux processus biologiques tels que la migration, la différentiation ou l’adhésion cellulaire. Elle est également associée à plusieurs évènements pathologiques. La cohésion de la MEC est assurée par un réseau organisé et complexe de protéines présent au voisinage immédiat des cellules. Ce projet a pour objectif de contribuer à la caractérisation structurale et fonctionnelle de certaines de ces complexes protéiques. Le Gelatin Binding Domain (GBD) (⁶FI¹²FII ⁷⁸⁹FI), localisé dans la région N-terminale de la fibronectine est connu pour interagir avec la transglutaminase 2 (TG2), le collagène de type I, ou encore des protéines d’adhésion bactériennes tel que la FNE (protéine de Streptococcus equi). Mes travaux de thèse portent donc sur la caractérisation fonctionnelle et structurale de ces interactions par des approches biophysiques et biochimiques. Ce travail a permis de cartographier les régions d’interactionentre la TG2 et le GBD d’une part et la FNE et le GBD d’autre part. Nous avons par la suite entrepris une étude par SAXS des complexes TG2/GBD et FNE/GBD et réussi à établir des modèles structuraux d’interaction entre (1) le GBD et le domaine N-terminal de la TG2 et (2) entre la FNE et le sous fragment ⁷⁸⁹FI du GBD. La structure tridimensionnelle de la protéine FNE a été résolue par cristallographie aux rayons X grâce à l’utilisation d’un outil original facilitant l’obtention de cristaux. / The extracellular matrix (ECM) is involved in a number of biological pathways associated with the cell migration, differentiation, adhesion and is also implicated in several pathological events. The cohesion of the ECM is accomplished by a highly organized protein complex network on the cell surface. The Gelatin Binding Domain (GBD) (⁶FI¹²FII ⁷⁸⁹FI) of the N-terminal region of fibronectin is found to interact with the transglutaminase 2 (TG2), collagen type I and the bacterial adhesion protein FNE. In this study, we conducted the structural and functional characterization of the protein complexes involved in the cohesion of ECM. The interactions between either TG2 or FNE and GBD have been characterized and the regions responsible for the interactions have also been mapped. Furthermore, we studied TG2/GBD and FNE/GBD complex by SAXS and built two models underscoring the interactions between (1), the GBD and the Nterminus of TG2 and (2), FNE and the sub-fragment ⁷⁸⁹FI of GBD providing insights on mechanistically elucidating the protein interactions during the cohehsion of ECM. The X-ray structure of the protein FNE of Streptococcus equi has been determined at 1.8 Å, by using an original tool that facilitates obtaining crystals. Matrice extracellulaire Fibronectine Gelating binding domain (GBD) Transglutaminase 2 Adhésine bactérienne FNE Protéines artificielles aREP Interaction protéine-protéine Structure Extracellular matrix Fibronectin Gelating binding domain (GBD) Transglutaminase 2 Bacterial adhesin FNE Artificial proteins α REP Protein-protein interactions Structure
45	L’apolipoprotéine A-I interagit avec l’adhésine impliquée dans l’adhérence diffuse (AIDA-I) d’Escherichia coli : rôle lors du processus d’adhésion et d’invasion René, Mélissa 05 1900 (has links) L’adhésine impliquée dans l’adhérence diffuse (AIDA-I) est une adhésine bactérienne présente chez certaines souches d’Escherichia coli qui, associée aux toxines Stx2e ou STb, contribue à l’apparition de la maladie de l’œdème ou de la diarrhée post-sevrage chez les porcelets. AIDA-I est un autotransporteur qui confère des capacités d’autoaggrégation, de formation de biofilms et d’adhésion. L’objectif principal du projet de recherche consistait en la recherche de récepteur(s) potentiel(s) d’AIDA-I. Les bactéries pathogènes adhèrent aux cellules-cibles soit en liant directement des molécules à la surface cellulaire ou en utilisant des molécules intermédiaires qui permettent de diminuer la distance séparant la bactérie de la cellule-cible. Puisque le sérum est un fluide qui contient de nombreuses molécules, celui-ci a été utilisé comme matériel de départ pour l’isolement de récepteur(s) potentiels. Nous avons isolé un récepteur potentiel à partir du sérum porcin : l’apolipoprotéine A-I. L’interaction entre l’apolipoprotéine A-I et AIDA-I a été confirmée par ELISA et microscopie à fluorescence. La capacité à envahir les cellules épithéliales offre aux pathogènes la possibilité d’établir une niche intracellulaire qui les protègent contre les attaques du milieu extérieur. La présente étude a démontré que la présence d’AIDA-I en tant que seul facteur de virulence chez une souche de laboratoire permet de conférer la capacité d’envahir les cellules sans promouvoir la survie intracellulaire. L’étude de la souche sauvage 2787, exprimant AIDA-I en association avec d’autres facteurs de virulence, a démontré une différence significative pour les phénotypes d’invasion et de survie intracellulaire face à la souche de laboratoire exprimant AIDA-I. / The adhesin involved in diffuse adherence (AIDA-I) is a bacterial adhesin associated with some Escherichia coli strains that might, when associated with toxin Stx2e or STb, contribute to the development of edema disease or post-weaning diarrhea in piglets. AIDA-I is an autotransporter that mediates various phenotypes such as adhesion, autoaggregation and biofilm formation. The main aim of our project was to find potential receptor(s) for AIDA-I. Pathogens can either bind cell directly by targeting exposed cell surface molecules or use an intermediate molecule as a bridge to lessen the space separating them from their target cell. Serum is known to contain a wide range of molecules so it has been used as raw material for the isolation of a putative receptor for AIDA-I. We isolated a putative receptor for AIDA-I: the apolipoprotein A-I. The interaction between the apolipoprotein A-I and AIDA-I was confirmed by ELISA and fluorescent microscopy. The capacity to invade epithelial cell enables pathogens to create an intracellular niche that protects them against attacks from the extracellular environment. The present report has shown that the presence of AIDA-I as the sole virulence factor in a laboratory strain, enable bacteria to invade cultured cells but does not promote intracellular survival. Studies conducted on wild-type strain 2787, which express AIDA-I in association with other virulence factors, has shown a significant difference in invasion and intracellular survival phenotypes compared to the laboratory strain expressing AIDA-I. Autotransporteur AIDA-I Escherichia coli Adhésine bactérienne Adhésion Invasion Apolipoprotéine A-I Microscopie à fluorescence Survie intracellulaire Autotransporter AIDA-I Escherichia coli Bacterial adhesin Adhesion Invasion Apolipoprotein A-I Fluorescent microscopy Intracellular survival
46	Papel das hemaglutininas 67-72p de Corynebacterium diphtheriae na ligação a proteínas plasmáticas, superfícies celulares, invasão e indução de apoptose / Participation of hemagglutinin 67-72p of corynebacterium diphtheriae in binding to plasma proteins, cells surfaces, invasion and induction of apoptosis Priscila Soares Sabbadini 16 June 2010 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Corynebacterium diphtheriae pode ser isolado tanto de quadros de difteria clássica, quanto de infecções sistêmicas, como endocardite. O fibrinogênio (Fbn) e a fibronectina (Fn) são glicoproteínas presentes na matriz extracelular de tecidos conjuntivos. A influência destas proteínas na patogênese das infecções locais e invasivas causadas por C. diphtheriae é objeto de estudo devido ao fato do bacilo diftérico poder ser encontrado em lesões nas quais o Fbn e a Fn são predominantes, incluindo a pseudomembrana diftérica e vegetações cardíacas presentes na endocardite infecciosa. São crescentes as evidências de que o C. diphtheriae pode, além de aderir, ser internalizado por células em cultura. No presente estudo, investigou-se a participação de C. diphtheriae e das proteínas de superfície 67-72p na aderência à Fn e ao Fbn de plasma humano e a eritrócitos. A aderência às células HEp-2 e internalização também foram analisadas. A participação de 67-72p nos mecanismos de morte celular foi avaliada através das colorações por Azul de Tripan e 46-diamidino-2-fenil indol (DAPI), pelo ensaio de redução utilizando dimetil-tiazol-difenil tetrazólio (MTT) e por citometria de fluxo. As 67-72p foram extraídas da superfície da amostra toxigênica C. diphtheriae subsp. mitis CDC-E8392 através de processos mecânicos e precipitação com sulfato de amônio saturado. Análises por SDS-PAGE e immunoblotting detectaram a presença das bandas protéicas de 67 e 72kDa nas amostras toxinogênicas e atoxinogênicas analisadas, as quais pertenciam aos biotipos fermentador e não fermentador de sacarose. C. diphtheriae foi capazes não só de formar agregados na presença de plasma de coelho, mas também de converter Fbn em fibrina independentemente da presença do gene tox. No entanto, a amostra atoxinogênica ATCC 27010 (tox-) foi menos aderente ao Fbn do que a homóloga ATCC 27012 (tox+). A interação bacteriana com eritrócitos foi inibida somente pela Fn. Ligações entre Fn e/ou Fbn com 67-72p foram demonstradas por dot blotting, ELISA e/ou ensaios utilizando fluorescência. As 67-72p foram capazes de inibir as interações bacterianas com o Fbn, indicando que 67-72p podem participar do processo de aderência do patógeno aos tecidos do hospedeiro. Através da microscopia óptica, demonstrou-se a ligação de 67-72p adsorvidas em microesferas de látex com células HEp-2. Anticorpos de coelho do tipo IgG anti 67-72p interferiram somente com a expressão do padrão de aderência do tipo difuso, normalmente apresentado pela amostra CDC-E8392. A Microscopia Eletrônica de Transmissão (MET) e a inibição da internalização bacteriana pela IgG anti 67-72p ou por 67-72p indicaram o papel de 67-72p como invasina. Alterações do citoesqueleto de células HEp-2 com acumulação de actina polimerizada, induzida por microesferas sensibilizadas com 67-72p, foi observada pelo fluorescent actin staining (FAS) test. Foi visualizado um aumento no número de bactérias viáveis no compartimento intracelular após tratamento de células HEp-2 ou dos microrganismos com Fn. A presença de partículas de látex adsorvidas com 67-72p no interior de vacúolos frouxos em células HEp-2 sugeriu que estas proteínas podem causar efeito citotóxico. A avaliação através das colorações com Azul de Tripan, DAPI e os ensaios de redução utilizando MTT demonstraram um decréscimo na viabilidade de células tratadas com 67-72p. As mudanças morfológicas observadas 3 horas após o início do tratamento com 67-72p incluíram vacuolização, fragmentação nuclear e formação de corpúsculos apoptóticos. A citometria de fluxo revelou um decréscimo de 15,13% no volume/tamanho de células tratadas com 67-72p. Além disso, o ensaio utilizando Iodeto de Propídio (IP) e Anexina V (AV)-FITIC demonstrou que havia 66,1% de células vivas (IP-/AV-), 16,6% de células em apoptose inicial (IP-/AV+) e 13,8% de células em apoptose tardia ou necrose secundária. Em conclusão, as 67-72p estão diretamente envolvidas na interação com Fn e Fbn. As proteínas não fimbriais 67-72p são hemaglutininas implicadas na aderência a células respiratórias e na internalização. Além disso, estas proteínas podem atuar como fatores de virulência em potencial para induzir apoptose de células epiteliais nos estágios iniciais da difteria e nas infecções invasivas causadas pelo C. diphtheriae / Corynebacterium diphtheriae have been isolated from classical diphtheria and systemic infections such as endocarditis. Fibrinogen (Fbn) and fibronectin (Fn) are high molecular-weight glycoproteins that may be found in extracellular matrix of connective tissues. Their influence in the pathogenesis of local and in invasive C. diphtheriae infection is object of interest due to the fact that diphtheria bacilli is recovered from lesions where such proteins are predominant, including pharyngeal pseudomembrane and valve heart vegetations in infectious endocarditis. There is growing evidence that C. diphtheriae may adhere to and be internalized by cells in culture. The present study investigated the participation of C. diphtheriae strains and 67-72p, a surface protein, in adherence to human plasma Fn, Fbn, erythrocytes, adherence to and internalization by HEp-2 cells. The participation of 67-72p in promoting cell death was evaluated by the Trypan blue, DAPI staining methods, methylthiazole tetrazolium (MTT) reduction assay and flow cytometry. The 67-72p was extracted from C. diphtheriae subsp. mitis CDC-E8392 toxigenic strain, by mechanical process and ammonium sulfate fractionation. SDS-PAGE and immunoblotting analysis detected the polypeptide bands of 67 and 72 kDa in all toxigenic and nontoxigenic strains from both sucrose-fermenting and non-fermenting biotypes. Diphtheria bacilli were capable to both form bacterial aggregates in rabbit plasma and to convert Fbn to fibrin independently to the presence of tox gene, albeit the ATCC 27010 (tox-) strain was less adherent to Fbn than the parental strain ATCC 27012 (tox+). Bacteria-erythrocytes interaction was inhibited only by Fn. Interactions of Fn and/or Fbn with 67-72p were demonstrated by dot blotting, ELISA and/or fluorescence assays. Bacteria-Fbn interaction was inhibited by 67-72p, indicating that 67-72p may participate in the adhesion of the pathogen to host tissues. The interaction of HEp-2 cells with 67-72p-adsorbed latex microspheres was demonstrated by light microscopy. Rabbit IgG anti 67-72p was shown to interfere with diffuse adherence phenotype to HEp-2 cells displayed by CDC-E8392, but not by other phenotypes. Transmission electron microscopy (TEM) and the inhibition of bacterial internalization by anti 67-72p IgG and 67-72p indicated the role of 67-72p as invasin. Cytoskeletal accumulation of polymerized actin in HEp-2 cells induced by 67-72p-microspheres was observed by the fluorescent actin staining (FAS) test. Fn enhanced the intracellular viability of all strains tested. The presence of 67-72p-latex particles inside spacious vacuoles (SV) in HEp-2 cells, suggested a citotoxic effect of these proteins. Evaluation by the Trypan blue staining method, 4,6-Diamidine-2-phenylindole dihydrochloride DAPI and the 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) reduction assay showed a significant decrease in viability of HEp-2 cells treated with 0.2 mg/ml 67-72p. Morphological changes in HEp-2 cells (vacuolization, nuclear fragmentation, and the formation of apoptotic bodies) was observed after 3 h post-treatment with 67-72p. Flow cytometry revealed a 15.13% reduction apoptotic volume of HEp-2 cells treated with 0.2 mg/ml 67-72p. Moreover, a double-staining assay using Propidium Iodide (PI)/Annexin V (AV) demonstrated the numbers of vital (PI-/AV-) (66.1%) vs. early apoptotic (PI-/AV+) (16.6%) cells and late apoptotic or secondary necrotic cells (PI+/AV+) (13.8%). In conclusion, the 67-72p are directly implicated in C. diphtheriae interaction with Fn and Fbn. The non-fimbrial Fn/Fbn binding 67-72p are hemagglutinins directly implicated in adherence to and internalization by respiratory epithelial cells. Moreover, 67-72p may act as a potential virulence factor to induce apoptosis of epithelial cells in the early stages of diphtheria and C. diphtheriae invasive infection Difteria C. diphtheriae Adesina 67-72p Fibrina Fibrinogênio Pseudomembrana Fibronectina Atoxinogênica HEp-2 Invasina Apoptose C. diphtheria Diphtheria 67-72p adhesin Fibrin Fibrinogen Pseudomembrane Fibronectin Nontoxigenic HEp-2 cells Invasin Apoptosis MICROBIOLOGIA MEDICA
47	Papel das hemaglutininas 67-72p de Corynebacterium diphtheriae na ligação a proteínas plasmáticas, superfícies celulares, invasão e indução de apoptose / Participation of hemagglutinin 67-72p of corynebacterium diphtheriae in binding to plasma proteins, cells surfaces, invasion and induction of apoptosis Priscila Soares Sabbadini 16 June 2010 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Corynebacterium diphtheriae pode ser isolado tanto de quadros de difteria clássica, quanto de infecções sistêmicas, como endocardite. O fibrinogênio (Fbn) e a fibronectina (Fn) são glicoproteínas presentes na matriz extracelular de tecidos conjuntivos. A influência destas proteínas na patogênese das infecções locais e invasivas causadas por C. diphtheriae é objeto de estudo devido ao fato do bacilo diftérico poder ser encontrado em lesões nas quais o Fbn e a Fn são predominantes, incluindo a pseudomembrana diftérica e vegetações cardíacas presentes na endocardite infecciosa. São crescentes as evidências de que o C. diphtheriae pode, além de aderir, ser internalizado por células em cultura. No presente estudo, investigou-se a participação de C. diphtheriae e das proteínas de superfície 67-72p na aderência à Fn e ao Fbn de plasma humano e a eritrócitos. A aderência às células HEp-2 e internalização também foram analisadas. A participação de 67-72p nos mecanismos de morte celular foi avaliada através das colorações por Azul de Tripan e 46-diamidino-2-fenil indol (DAPI), pelo ensaio de redução utilizando dimetil-tiazol-difenil tetrazólio (MTT) e por citometria de fluxo. As 67-72p foram extraídas da superfície da amostra toxigênica C. diphtheriae subsp. mitis CDC-E8392 através de processos mecânicos e precipitação com sulfato de amônio saturado. Análises por SDS-PAGE e immunoblotting detectaram a presença das bandas protéicas de 67 e 72kDa nas amostras toxinogênicas e atoxinogênicas analisadas, as quais pertenciam aos biotipos fermentador e não fermentador de sacarose. C. diphtheriae foi capazes não só de formar agregados na presença de plasma de coelho, mas também de converter Fbn em fibrina independentemente da presença do gene tox. No entanto, a amostra atoxinogênica ATCC 27010 (tox-) foi menos aderente ao Fbn do que a homóloga ATCC 27012 (tox+). A interação bacteriana com eritrócitos foi inibida somente pela Fn. Ligações entre Fn e/ou Fbn com 67-72p foram demonstradas por dot blotting, ELISA e/ou ensaios utilizando fluorescência. As 67-72p foram capazes de inibir as interações bacterianas com o Fbn, indicando que 67-72p podem participar do processo de aderência do patógeno aos tecidos do hospedeiro. Através da microscopia óptica, demonstrou-se a ligação de 67-72p adsorvidas em microesferas de látex com células HEp-2. Anticorpos de coelho do tipo IgG anti 67-72p interferiram somente com a expressão do padrão de aderência do tipo difuso, normalmente apresentado pela amostra CDC-E8392. A Microscopia Eletrônica de Transmissão (MET) e a inibição da internalização bacteriana pela IgG anti 67-72p ou por 67-72p indicaram o papel de 67-72p como invasina. Alterações do citoesqueleto de células HEp-2 com acumulação de actina polimerizada, induzida por microesferas sensibilizadas com 67-72p, foi observada pelo fluorescent actin staining (FAS) test. Foi visualizado um aumento no número de bactérias viáveis no compartimento intracelular após tratamento de células HEp-2 ou dos microrganismos com Fn. A presença de partículas de látex adsorvidas com 67-72p no interior de vacúolos frouxos em células HEp-2 sugeriu que estas proteínas podem causar efeito citotóxico. A avaliação através das colorações com Azul de Tripan, DAPI e os ensaios de redução utilizando MTT demonstraram um decréscimo na viabilidade de células tratadas com 67-72p. As mudanças morfológicas observadas 3 horas após o início do tratamento com 67-72p incluíram vacuolização, fragmentação nuclear e formação de corpúsculos apoptóticos. A citometria de fluxo revelou um decréscimo de 15,13% no volume/tamanho de células tratadas com 67-72p. Além disso, o ensaio utilizando Iodeto de Propídio (IP) e Anexina V (AV)-FITIC demonstrou que havia 66,1% de células vivas (IP-/AV-), 16,6% de células em apoptose inicial (IP-/AV+) e 13,8% de células em apoptose tardia ou necrose secundária. Em conclusão, as 67-72p estão diretamente envolvidas na interação com Fn e Fbn. As proteínas não fimbriais 67-72p são hemaglutininas implicadas na aderência a células respiratórias e na internalização. Além disso, estas proteínas podem atuar como fatores de virulência em potencial para induzir apoptose de células epiteliais nos estágios iniciais da difteria e nas infecções invasivas causadas pelo C. diphtheriae / Corynebacterium diphtheriae have been isolated from classical diphtheria and systemic infections such as endocarditis. Fibrinogen (Fbn) and fibronectin (Fn) are high molecular-weight glycoproteins that may be found in extracellular matrix of connective tissues. Their influence in the pathogenesis of local and in invasive C. diphtheriae infection is object of interest due to the fact that diphtheria bacilli is recovered from lesions where such proteins are predominant, including pharyngeal pseudomembrane and valve heart vegetations in infectious endocarditis. There is growing evidence that C. diphtheriae may adhere to and be internalized by cells in culture. The present study investigated the participation of C. diphtheriae strains and 67-72p, a surface protein, in adherence to human plasma Fn, Fbn, erythrocytes, adherence to and internalization by HEp-2 cells. The participation of 67-72p in promoting cell death was evaluated by the Trypan blue, DAPI staining methods, methylthiazole tetrazolium (MTT) reduction assay and flow cytometry. The 67-72p was extracted from C. diphtheriae subsp. mitis CDC-E8392 toxigenic strain, by mechanical process and ammonium sulfate fractionation. SDS-PAGE and immunoblotting analysis detected the polypeptide bands of 67 and 72 kDa in all toxigenic and nontoxigenic strains from both sucrose-fermenting and non-fermenting biotypes. Diphtheria bacilli were capable to both form bacterial aggregates in rabbit plasma and to convert Fbn to fibrin independently to the presence of tox gene, albeit the ATCC 27010 (tox-) strain was less adherent to Fbn than the parental strain ATCC 27012 (tox+). Bacteria-erythrocytes interaction was inhibited only by Fn. Interactions of Fn and/or Fbn with 67-72p were demonstrated by dot blotting, ELISA and/or fluorescence assays. Bacteria-Fbn interaction was inhibited by 67-72p, indicating that 67-72p may participate in the adhesion of the pathogen to host tissues. The interaction of HEp-2 cells with 67-72p-adsorbed latex microspheres was demonstrated by light microscopy. Rabbit IgG anti 67-72p was shown to interfere with diffuse adherence phenotype to HEp-2 cells displayed by CDC-E8392, but not by other phenotypes. Transmission electron microscopy (TEM) and the inhibition of bacterial internalization by anti 67-72p IgG and 67-72p indicated the role of 67-72p as invasin. Cytoskeletal accumulation of polymerized actin in HEp-2 cells induced by 67-72p-microspheres was observed by the fluorescent actin staining (FAS) test. Fn enhanced the intracellular viability of all strains tested. The presence of 67-72p-latex particles inside spacious vacuoles (SV) in HEp-2 cells, suggested a citotoxic effect of these proteins. Evaluation by the Trypan blue staining method, 4,6-Diamidine-2-phenylindole dihydrochloride DAPI and the 3-(4,5-Dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) reduction assay showed a significant decrease in viability of HEp-2 cells treated with 0.2 mg/ml 67-72p. Morphological changes in HEp-2 cells (vacuolization, nuclear fragmentation, and the formation of apoptotic bodies) was observed after 3 h post-treatment with 67-72p. Flow cytometry revealed a 15.13% reduction apoptotic volume of HEp-2 cells treated with 0.2 mg/ml 67-72p. Moreover, a double-staining assay using Propidium Iodide (PI)/Annexin V (AV) demonstrated the numbers of vital (PI-/AV-) (66.1%) vs. early apoptotic (PI-/AV+) (16.6%) cells and late apoptotic or secondary necrotic cells (PI+/AV+) (13.8%). In conclusion, the 67-72p are directly implicated in C. diphtheriae interaction with Fn and Fbn. The non-fimbrial Fn/Fbn binding 67-72p are hemagglutinins directly implicated in adherence to and internalization by respiratory epithelial cells. Moreover, 67-72p may act as a potential virulence factor to induce apoptosis of epithelial cells in the early stages of diphtheria and C. diphtheriae invasive infection Difteria C. diphtheriae Adesina 67-72p Fibrina Fibrinogênio Pseudomembrana Fibronectina Atoxinogênica HEp-2 Invasina Apoptose C. diphtheria Diphtheria 67-72p adhesin Fibrin Fibrinogen Pseudomembrane Fibronectin Nontoxigenic HEp-2 cells Invasin Apoptosis MICROBIOLOGIA MEDICA
48	Malato sintase de Paracoccidioides brasiliensis é uma proteína ligada à superfície que se comporta como uma anchorless adesina / The malate synthase of Paracoccidioides brasiliensis is a linked surface protein that behaves as an anchorless adhesin SILVA NETO, Benedito Rodrigues da 11 May 2009 (has links) Made available in DSpace on 2014-07-29T15:16:38Z (GMT). No. of bitstreams: 1 Dissert part 1 Benedito.pdf: 5001631 bytes, checksum: 7d51091e361c98586e384be80ebe9178 (MD5) Previous issue date: 2009-05-11 / The pathogenic fungus Paracoccidioides brasiliensis causative of Paracoccidioidomycosis (PCM), a pulmonary mycose acquired by inhalation of fungal airborne propagules, which may disseminate to several organs and tissues leading to a severe form of the disease. Adhesion and invasion to host cells are essential steps involved in the internalization and dissemination of pathogens. Inside host, P. brasiliensis use the glyoxylate cycle for intracellular survival. Here, we provide evidence that malate synthase of P. brasiliensis (PbMLS) is localized on the cell wall, and is secreted. PbMLS was overexpressed in Escherichia coli, and polyclonal antibody against this protein was obtained. By using Confocal Laser Scanning Microscopy and Western blot analysis, PbMLS was detected in the cytoplasm and the cell wall of the yeast phase of P. brasiliensis of mother and bud yeast cells. PbMLSr and the respective polyclonal antibody produced against this protein inhibited the interaction of P. brasiliensis to in vitro cultured epithelial cells A549. These observations indicated that cell wall-associated MLS of P. brasiliensis could be mediating the binding of fungal cells, thus contributing to the adhesion of fungus to host tissues and to the dissemination of infection. / O fungo de patogênico Paracoccidioides brasiliensis agente causador da Paracoccidioidomicose (PCM), uma micose pulmonar adquirida pela inalação de propágulos aéreos do fungo que pode se disseminar a vários órgãos e tecidos levando a uma forma severa da doença. Dentro do hospedeiro, P. brasiliensis usa o ciclo do glioxalato (CG) para sobrevivência intracelular. Adesão e invasão das células do hospedeiro são passos essenciais envolvidos na internalização e disseminação do patógeno. Aqui, nós evidênciamos que malato sintase de P. brasiliensis (PbMLS) é secretada, e é localizada na parede da célula. PbMLS foi superexpressa em Escherichia coli, e o anticorpo policlonal contra esta proteína foi obtido. Usando Microscopia Laser Confocal (CLSM) e análise de Western blot, PbMLS foi encontrada no citoplasma e na parede da célula na fase leveduriforme de P. brasiliensis nas células mãe e broto. PbMLSr e o respectivo anticorpo policlonal produzido contra esta proteína inibiram a interação de P. brasiliensis com células epiteliais A549 cultivads in vitro. Estas observações indicariam que MLS associada à parede da célula de P. brasiliensis pode estar mediando a ligação do fungo às células, contribuindo assim com a adesão do fungo aos tecidos hospedeiros e para a disseminação da infecção. 1. Paracoccidioides brasiliensis 2. Malato sintase 3. Ciclo do glioxalato 4. Adesina 1. Paracoccidioides brasiliensis 2. Malate synthase 3. Glyoxylate cycle 5. Adhesin
49	Identification of avian pathogenic E. coli (APEC) genes important for the colonization of the chicken lung and characterization of the novel ExPEC adhesin I Antão, Esther-Maria 11 June 2010 (has links) Aviäre pathogene E. coli (APEC) sind extraintestinale Pathogene, die beim Huhn systemische Infektionskrankheiten hervorrufen. Zur Identifizierung Gene, die an der Kolonisierung des Wirtes beteiligt sind, wurde ein Lungen-Infektionsmodell in 5 Wochen alten SPF Hühnern etabliert. In dem Modell wurden 1.800 mittels Signature-tagged-Mutagenese (STM) hergestellten Mutanten des APEC Stamms IMT5155 (O2:K1:H5; ST-Komplex 95) auf ihre Fähigkeit zur Kolonisierung getestet. Die Untersuchung führte zur Identifizierung Gene, einschließlich Adhäsin-, LPS- und Kapsel-bildenden Genen, sowie Genen mit putativer Funktion. Die STM-Analyse erlaubte zudem die Identifizierung eines zuvor nicht charakterisierten putativen Fimbrien-bildenden Adhäsins (Yqi). Das Genprodukt wurde vorläufig als ExPEC Adhäsin I (EA/I) bezeichnet. Eine Deletion des EA/I-Gens führte zu einer Reduzierung der Adhäsionsfähigkeit des Stammes IMT5155 in vitro und in vivo. Eine Komplementierung des EA/I-Gens in trans resultierte in einer Wiederherstellung des Adhäsions¬vermögens in vitro. Das EA/I-Protein (~39 kDa) wurde als Fusionsprotein in vitro exprimiert, und mittels SDS-PAGE und Western Blot nachgewiesen. Durch Überexpression des EA/I-Operons in dem Fimbrien-negativen E. coli-Stamm AAEC189 konnten mittels elektronenmikroskopischer Aufnahmen Fimbrien-bildende Strukturen auf der äußeren Membran dargestellt werden. Das Vorkommen des yqi in den untersuchten extraintestinal pathogenen E. coli (ExPEC), bei gleichzeitigem Fehlen in allen untersuchten intestinal pathogenen E. coli bestätigt die Bezeichnung ExPEC Adhäsin I. Die Prävalenz des EA/I-Gens war am stärksten assoziiert mit Stämmen der B2-Phylogenetische-Gruppe und des ST95-Komplexes des Multi-Lokus-Sequenz-Typisierungs (MLST)-Schemas. Sequenzanalysen ergaben zudem erste Hinweise auf eine positive Selektion des EA/I-Gens innerhalb dieses Komplexes. In der vorliegenden Arbeit gelang somit die Identifizierung und Charakterisierung des neuen ExPEC Adhäsin I. / The extraintestinal pathogen, avian pathogenic E. coli (APEC), known to cause systemic infections in chickens, is responsible for large economic losses in the poultry industry. To identify genes, involved adhesion and colonization, a lung colonization model of infection was established in 5-week old specific-pathogen free (SPF) chickens, and Signature-tagged mutagenesis (STM) was applied to this model by generating and screening a total of 1,800 mutants of an APEC strain IMT5155 (O2:K1:H5; ST complex 95). This led to the identification of new genes of interest, including adhesins, genes involved in capsule and LPS formation, and genes of putative function. Among the many genes identified was one coding for a novel APEC fimbrial adhesin (Yqi) not described for its role in APEC pathogenesis. Its gene product was temporarily designated ExPEC Adhesin I (EA/I). Deletion of the ExPEC adhesin I gene resulted in reduced colonization ability by APEC strain IMT5155 both in vitro and in vivo. Complementation of the adhesin gene restored its ability to colonize epithelial cells in vitro. The ExPEC adhesin I protein (~ 39 kDa) was expressed as a fusion protein in vitro as shown by SDS-PAGE and western blotting. Electron microscopy of an afimbriate strain E. coli AAEC189 over-expressed with the putative EA/I gene cluster revealed short fimbrial like appendages protruding out of the bacterial outer membrane. We observed that the adhesin coding gene yqi is prevalent among extraintestinal pathogenic E. coli (ExPEC) isolates and absent in all of the intestinal pathogenic E. coli strains tested, thereby validating the designation of the adhesin as ExPEC Adhesin I. In addition, prevalence of EA/I was most frequently associated with the E. coli phylogenetic group B2 and ST95 complex of the multi locus sequence typing (MLST) scheme, with evidence of a positive selection within this complex. This is the first report of the newly identified and functionally characterized ExPEC adhesin I. Aviäre pathogene E. coli (APEC) Signature-tagged Mutagenese (STM) Lungen-Infektionsmodell ExPEC Adhäsin I (EA/I) Avian pathogenic E. coli (APEC) Signature-tagged mutagenesis (STM) Chicken lung infection model ExPEC adhesin I (EA/I) 570 Biowissenschaften, Biologie 32 Biologie WF 7300 ddc:570

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