Global ETD Search

41	Sorologia de antígenos flagelares de amostras de Escherichia coli Enteropatogênicas (EPEC) e E. coli produtoras da Toxina de Shiga (STEC) isoladas de diferentes animais e análise comparativa do gene fliC por PCR-RFLP. / Serology of flagellar antigens from strains of enteropathogenic Escherichia coli (EPEC) and Shiga Toxin producing E. coli (STEC) isolated from different animals and comparative analysis of the fliC gene by PCR-RFLP. Ayala, Claudia de Oliveira 19 November 2009 (has links) A espécie Escherichia coli constitui um grupo de bactérias tipicamente não patogênicas e que fazem parte do trato intestinal de humanos e animais. As amostras são sorotipadas com base em seus antígenos de superfície O (somático), H (flagelar) e K (capsular). O antígeno flagelar correspondente ao filamento é formado pela polimerização da flagelina, codificada pelo gene fliC. O presente trabalho empregou a técnica de PCR-RFLP para analisar os padrões de antígenos flagelares de 112 amostras de EPEC e STEC. Quatorze amostras não amplificaram o gene fliC, 17 tiveram seu antígeno flagelar determinado apenas por PCR-RFLP e 75 amostras tiveram seus antígenos flagelares confirmados por esta técnica. Três antígenos H com padrões irregulares foram clonados e sequenciados. Após o sequenciamento, inserções e remoções de nucleotídeos foram encontradas. Até o momento, poucos estudos utilizam um número abrangente de amostras de STEC e EPEC provenientes de diferentes animais para a determinação do antígeno H empregando a técnica de PCR-RFLP do gene fliC. De acordo com os resultados encontrados neste estudo, podemos concluir que a técnica de PCR-RFLP do gene fliC é mais rápida, menos trabalhosa e mais eficiente que a metodologia de sorotipagem clássica. / The Escherichia coli species consists of a group of typically non-pathogenic bacteria present in the intestinal tract of humans and animals. Strains are serotyped according to their O (somatic), H (flagellar) and K (capsular) surface antigens, in order to distinguish these microorganisms from the non-pathogenic members of the intestinal microbiota. The flagellar antigen corresponding to the filament is formed by the polymerization of the flagellin, codified by the fliC gene. This study employed the PCR-RFLP technique to analyze flagellar antigen patterns from 112 EPEC and STEC strains. Fourteen strains have not amplified the fliC gene, 17 had their flagellar antigen determined only by the PCR-RFLP and 75 strains had their flagellar antigen confirmed by this technique. Three H antigens with irregular patterns were cloned and sequenced. After sequencing, insertions and deletions of nucleotides were discovered. So far, few studies used a significant number of STEC and EPEC strains originated from different animals to determine H antigens employing the PCR-RFLP technique of the fliC gene. According to the findings of this study, we assumed that PCR-RFLP of the fliC gene is faster, less laborious and more efficient than classic serotyping methodology. Escherichia coli Escherichia coli FliC FliC Flagelina Flagellin Microbiologia Microbiology Polymerase chain reaction (PCR) Reação em cadeia por polimerase (PCR) RFLP RFLP
42	Imunogenicidade e potencial vacinal das flagelinas de Salmonella enterica sorovar Typhimurium. / Immunogenicity and vaccine approach of Salmonella enterica sorovar Typhimurium flagellins. Massis, Liliana Moura 16 October 2007 (has links) Flagelina, a subunidade estrutural dos flagelos bacterianos, pode ser empregada em estratégias vacinais como carregadora de epitopos antigênicos fusionados ou como adjuvante. Neste trabalho avaliamos a imunogenicidade e o potencial vacinal das flagelinas Salmonella enterica sorovar Typhimurium em camundongos BALB/c após administração pelas vias oral ou intraperitoneal. Os resultados indicam que animais imunizados pela via oral com linhagens flageladas de S. Typhimurium não desenvolvem respostas de anticorpos, sistêmicos ou secretados, anti-flagelina, por outro lado, ativam respostas celulares específicas para as flagelinas em função da via de administração utilizada. Observamos ainda que as diferentes flagelinas testadas apresentam efeito adjuvante quando co-administradas pela via nasal com a fímbria CFA/I de ETEC. Em suma, os resultados apresentados contribuem para um melhor conhecimento sobre as propriedades imunológicas e adjuvantes das flagelinas de S. Typhimurium e agregam informações para o uso racional dessas proteínas em formulações vacinais. / Flagellin, the structural subunit of bacterial flagella, can be used in vaccine development as a fused antigenic epitope carrier or as an adjuvant. In this work we evaluated the immunogenicity and vaccine approach of S. Typhimurium flagellin in BALB/c mice after administration by oral or intraperitoneal route. Our results indicate that mice immunized by oral route with flagellated S. Typhimurium strains do not develop any anti-flagellin antibody response, be it serum or secreted. On the other hand, specific anti-flagellin cellular response was observed depending on the chosen route of immunization with S. Typhimurium attenuated strain. Furthermore, all flagellins tested proved to be efficient adjuvants when co-administrated with CFA/I fimbriae by nasal route. Together, these results contribute to a better understanding of the immunological and adjuvant properties of S. Typhimurium flagellins and also provide information on the rational use of these proteins in vaccine development. Adjuvantes Adjuvants Antígenos heterólogos Attenuated S. Typhimurium Flagelina Flagellin Heterologous antigens Immune response Mucosal vaccine. Resposta imune S. Typhimurium atenuada Vacinas de mucosa.
43	Protinádorová imunoterapie založená na instalaci manózy na povrch nádorových buněk / Anticancer immunotherapy based on the installation of mannose on the surface of tumor cells MAIEROVÁ, Veronika January 2012 (has links) The aim of this thesis was to find optimal therapy based on combination of membrane-anchored phagocytic ligands (mannose-(G)5-(K)10-STE, mannan-BAM, mannan-SMCC) with LPS (ligand of signal receptor)for treatment of murine melanoma B16-F10. Mixture of mannan-BAM with LPS applied in pulse regime proved to be the most effective, resulting in heigh reduction of tumor growth and significant prolongation of survival.
44	Sorologia de antígenos flagelares de amostras de Escherichia coli Enteropatogênicas (EPEC) e E. coli produtoras da Toxina de Shiga (STEC) isoladas de diferentes animais e análise comparativa do gene fliC por PCR-RFLP. / Serology of flagellar antigens from strains of enteropathogenic Escherichia coli (EPEC) and Shiga Toxin producing E. coli (STEC) isolated from different animals and comparative analysis of the fliC gene by PCR-RFLP. Claudia de Oliveira Ayala 19 November 2009 (has links) A espécie Escherichia coli constitui um grupo de bactérias tipicamente não patogênicas e que fazem parte do trato intestinal de humanos e animais. As amostras são sorotipadas com base em seus antígenos de superfície O (somático), H (flagelar) e K (capsular). O antígeno flagelar correspondente ao filamento é formado pela polimerização da flagelina, codificada pelo gene fliC. O presente trabalho empregou a técnica de PCR-RFLP para analisar os padrões de antígenos flagelares de 112 amostras de EPEC e STEC. Quatorze amostras não amplificaram o gene fliC, 17 tiveram seu antígeno flagelar determinado apenas por PCR-RFLP e 75 amostras tiveram seus antígenos flagelares confirmados por esta técnica. Três antígenos H com padrões irregulares foram clonados e sequenciados. Após o sequenciamento, inserções e remoções de nucleotídeos foram encontradas. Até o momento, poucos estudos utilizam um número abrangente de amostras de STEC e EPEC provenientes de diferentes animais para a determinação do antígeno H empregando a técnica de PCR-RFLP do gene fliC. De acordo com os resultados encontrados neste estudo, podemos concluir que a técnica de PCR-RFLP do gene fliC é mais rápida, menos trabalhosa e mais eficiente que a metodologia de sorotipagem clássica. / The Escherichia coli species consists of a group of typically non-pathogenic bacteria present in the intestinal tract of humans and animals. Strains are serotyped according to their O (somatic), H (flagellar) and K (capsular) surface antigens, in order to distinguish these microorganisms from the non-pathogenic members of the intestinal microbiota. The flagellar antigen corresponding to the filament is formed by the polymerization of the flagellin, codified by the fliC gene. This study employed the PCR-RFLP technique to analyze flagellar antigen patterns from 112 EPEC and STEC strains. Fourteen strains have not amplified the fliC gene, 17 had their flagellar antigen determined only by the PCR-RFLP and 75 strains had their flagellar antigen confirmed by this technique. Three H antigens with irregular patterns were cloned and sequenced. After sequencing, insertions and deletions of nucleotides were discovered. So far, few studies used a significant number of STEC and EPEC strains originated from different animals to determine H antigens employing the PCR-RFLP technique of the fliC gene. According to the findings of this study, we assumed that PCR-RFLP of the fliC gene is faster, less laborious and more efficient than classic serotyping methodology. Escherichia coli FliC Flagelina Microbiologia Reação em cadeia por polimerase (PCR) RFLP Escherichia coli FliC Flagellin Microbiology Polymerase chain reaction (PCR) RFLP
45	Imunogenicidade e potencial vacinal das flagelinas de Salmonella enterica sorovar Typhimurium. / Immunogenicity and vaccine approach of Salmonella enterica sorovar Typhimurium flagellins. Liliana Moura Massis 16 October 2007 (has links) Flagelina, a subunidade estrutural dos flagelos bacterianos, pode ser empregada em estratégias vacinais como carregadora de epitopos antigênicos fusionados ou como adjuvante. Neste trabalho avaliamos a imunogenicidade e o potencial vacinal das flagelinas Salmonella enterica sorovar Typhimurium em camundongos BALB/c após administração pelas vias oral ou intraperitoneal. Os resultados indicam que animais imunizados pela via oral com linhagens flageladas de S. Typhimurium não desenvolvem respostas de anticorpos, sistêmicos ou secretados, anti-flagelina, por outro lado, ativam respostas celulares específicas para as flagelinas em função da via de administração utilizada. Observamos ainda que as diferentes flagelinas testadas apresentam efeito adjuvante quando co-administradas pela via nasal com a fímbria CFA/I de ETEC. Em suma, os resultados apresentados contribuem para um melhor conhecimento sobre as propriedades imunológicas e adjuvantes das flagelinas de S. Typhimurium e agregam informações para o uso racional dessas proteínas em formulações vacinais. / Flagellin, the structural subunit of bacterial flagella, can be used in vaccine development as a fused antigenic epitope carrier or as an adjuvant. In this work we evaluated the immunogenicity and vaccine approach of S. Typhimurium flagellin in BALB/c mice after administration by oral or intraperitoneal route. Our results indicate that mice immunized by oral route with flagellated S. Typhimurium strains do not develop any anti-flagellin antibody response, be it serum or secreted. On the other hand, specific anti-flagellin cellular response was observed depending on the chosen route of immunization with S. Typhimurium attenuated strain. Furthermore, all flagellins tested proved to be efficient adjuvants when co-administrated with CFA/I fimbriae by nasal route. Together, these results contribute to a better understanding of the immunological and adjuvant properties of S. Typhimurium flagellins and also provide information on the rational use of these proteins in vaccine development. Adjuvantes Antígenos heterólogos Flagelina Resposta imune S. Typhimurium atenuada Vacinas de mucosa. Adjuvants Attenuated S. Typhimurium Flagellin Heterologous antigens Immune response Mucosal vaccine.
46	Caracterização dos efeitos imunomoduladores e adjuvanticidade da flagelina Hag de Bacillus subtilis. / Characterization of immunomodulatory and adjuvant effects of Bacillus subtilis flagellin. Carolina Salcedo Rivillas 24 May 2012 (has links) Flagelinas de bactérias gram-negativas ativam o sistema imune inato resultando em efeitos adjuvantes para antígenos co-administrados. No entanto, não existem relatos sobre as propriedades adjuvantes de flagelinas de bactérias gram-positivas. O objetivo do projeto foi estudar os efeitos imunomoduladores da flagelina Hag de B. subtílis. Inicialmente foi purificada a Hag e subseqüentemente avaliada sua propriedade imunológica quando administrada junto com a ovalmbumina (OVA) pelas vias intra-nasal (i.n.) ou subcutânea (s.c.) em camundongos Balb/C e C57BL/6. Os resultados demonstraram as propriedades imunomoduladoras da Hag nas duas linhagens em relação à indução de anticorpos antígeno-específicos. Não foi possível demonstrar a ativação de linfócitos TCD4+ e CD8+ antígenos-específicos em animais Balb/C imunizados com OVA e Hag tanto pela via s.c. como pela i.n.. Resultados mais promissores do efeito adjuvante frente a células T foram encontrados em animais C57BL/6. Os resultados abrem perspectivas para o estudo do potencial da flagelina Hag de B. subtilis como adjuvante vacinal. / Flagellin of gram negatives bacteria actives the innate immune system resulting in adjuvants effects against coadministrated antigens. However, there is not information about immunological properties of flagellins produced by gram positive bacteria. This study aimed the evaluation of immunomodulator effects of Hag flagellin from B. subtilis. Vaccine formulations based in purified Hag and Ovalbumine protein (OVA) were administrated intranasal (i.n.) and subcutaneously (s.c.) in Balb/C and C57BL/6 mice and then the population of B and T lymphocytes were monitored for production of antibodies and citocines and/or surface markers expression. Results showed the immunomodulatory properties of Hag in both mice lineages regarding the induction of antigen specific antibodies when immunized with OVA and Hag by i.n. and s.c. via. Most promising results concerning the adjuvant effects observed on T cells activation were found in C57BL/6 mice. The results obtained open future perspectives for the study of the potential use of B. subtilis Hag flagellin as adjuvant in vaccines. Adjunvaticidade Adjuvantes imunológicos Anticorpos Bacillus gram-positivos Citocinas Flagelina Sistema imune inato e adaptativo Adjunvaticidade Antibodies Bacillus gram-positive Cytokines Flagellin Immunological adjuvants Innate and adaptive immune system
47	Caractérisation des propriétés anti-infectieuses de la flagelline, agoniste du Toll-like receptor 5 / Characterization of anti-infectious properties of flagellin, Toll-like receptor 5 agonist Porte, Rémi 18 December 2015 (has links) De par sa capacité à détecter les microorganismes et à mettre en place une défense anti-infectieuse rapide, l’immunité innée représente la première ligne de défense de l’hôte. La réponse immunitaire innée est déclenchée par des motifs microbiens moléculaires universels et conservés reconnus par des récepteurs innés parmi lesquels les "Toll-like Receptors" (TLR). L’activation de ces récepteurs induit une inflammation locale et une réponse antimicrobienne adaptée au pathogène. Ces propriétés biologiques ont permis de d’envisager l’utilisation des TLR comme cible thérapeutique antiinfectieuse. Dans ce contexte il a été montré que la flagelline, le composant majeur des flagelles bactériens et le seul agoniste de TLR5 décrit à ce jour, possédait des propriétés anti-infectieuses. Des études chez la souris ont montré que la flagelline induisait une forte production, par des cellules lymphoïdes innées, d’IL-22, une cytokine impliquées dans la protection des muqueuses. Par ailleurs, la forte expression de TLR5 par les cellules épithéliales laisse présager un rôle de ces cellules dans les propriétés anti-infectieuses de la flagelline. Toutefois, les mécanismes moléculaires et cellulaires effecteurs responsables des effets antimicrobiens de l’agoniste de TLR5 restent à définir.Au cours de ce travail de thèse, nous avons étudié les capacités anti-infectieuses de la flagelline dans deux modèles infectieux chez la souris. Nous avons tout d’abord montré que l’administration systémique de flagelline, en prophylaxie c’est-à-dire préalablement au challenge infectieux, permettait de protéger d’une infection intestinale par Yersinia pseudotuberculosis. La protection induite par la flagelline est observable lors d’une infection par la voie muqueuse mais est absente lors d’un challenge infectieux par la voie systémique, démontrant ainsi le caractère muqueux de la protection. L’effet protecteur de la flagelline dans notre modèle est dépendant de l’expression de TLR5 et indépendant de l’IL-22. Cette étude suggère donc un mécanisme original de protection médié par la flagelline, indépendant de l’IL-22.Nous avons également analysé la capacité anti-infectieuse de la flagelline dans un modèle murin d’infection respiratoire à Streptococcus pneumoniae. Nous avons notamment montré que la flagelline pouvait être utilisée en thérapeutique lorsqu’elle était associée à un antibiotique. En effet, l’association d’amoxicilline ou de co-trimoxazole avec la flagelline (voie intranasale) a permis de protéger des souris infectées par une dose létale de S. pneumoniae comparativement à l’antibiotique seul. L’efficacité de cette thérapie est dépendante de l’activation de TLR5 et est associée à une infiltration pulmonaire importante de polynucléaires neutrophiles. Ce traitement combinatoire améliore également la protection dans un modèle de surinfection pneumococcique post-grippale. Ces résultats montrent que la combinaison agoniste de TLR5/antibiotique améliore la réponse anti-infectieuse pulmonaire et permettent d’envisager de nouvelles stratégies antibactériennes dans le cas d’infections où les antibiotiques montrent leurs limites (infections nosocomiales, bactéries multirésistantes…). / With its ability to sense micro-organisms and to induce a rapid defense against infections, innate immunity represents the first line of host’s defense. The innate immune response is triggered by universal and conserved microbial molecular patterns recognized by innate receptors including the Toll-like receptors (TLRs). Activation of these receptors induces local inflammation and antimicrobial response against pathogens. These biological properties have allowed considering the use of TLR as anti-infective therapeutic target. In this context it has been shown that flagellin, the major component of bacterial flagella and the agonist of TLR5, had anti-infectious properties. It was shown that flagellin induces a strong production by innate lymphoid cells of IL-22, a cytokine involved in the protection of mucosa. Furthermore, the strong expression of TLR5 by epithelial cells suggests a role for these cells in the anti-infectious properties of flagellin. However, the molecular and cellular mechanisms responsible for the antimicrobial effects of the TLR5 agonist remained to be defined.In this thesis, we studied the anti-infectious properties of flagellin in two infectious murine models. We first showed that systemic administration of flagellin, prior to infectious challenge, protect against an intestinal infection with Yersinia pseudotuberculosis. The protection induced by flagellin is observable upon infection by mucosal route but is absent during a challenge by the systemic route, thus demonstrating the role of the mucosa for the protection. The anti-bacterial effect in this model is dependent on the expression of TLR5 and independent of the innate lymphoid cells’ IL-22 production. This study suggests a novel mechanism of flagellin-mediated protection, independent of the IL-22.We also analyzed the anti-infectious abilities of flagellin in a murine model of respiratory infection by Streptococcus pneumoniae. In particular, we showed that flagellin could be used in therapy when combined to an antibiotic. Indeed, the combination of amoxicillin or co-trimoxazole with flagellin protected mice infected with a lethal dose of S. pneumoniae compared to antibiotic standalone. The effectiveness of this therapy was dependent on the activation of TLR5 and was associated with pulmonary infiltration of neutrophils. This combinatory treatment also improved the protection in a model of post-influenza pneumococcal superinfection. These results show that the combination of TLR5 agonist / antibiotic ameliorates pulmonary anti-infectious response and allow to consider new antibacterial strategies against infections when antibiotics reach their limits (nosocomial infections, multiresistant bacteria ...). Immunité innée TLR5 Agoniste Flagelline Infection intestinale Infection respiratoire Antibiotique Thérapie Prophylaxie IL-22 Muqueuse Toll-like receptor 5 Antibiotics Flagellin Innate immune
48	Inhibition of The NF-κB Signaling Pathway and Its Effects On Apoptosis and Cancer Lupica, Joseph A. 15 July 2008 (has links) No description available. Biology Chemistry Molecular Biology NF-kappaB IHPK2 Toll-like Receptor 5 TLR5 Nitrosylcobalamine Nitric Oxide TRAIL/Apo2L Flagellin Doxorubicin Etoposide VP-16 IKK fliC
49	Mécanismes cellulaires et moléculaires de la susceptibilité à l'infection au cours de la bronchopneumopathie chronique obstructive (BPCO) / Cellular and molecular mechanisms of susceptibility to infection in chronic obstructive pulmonary disease (COPD) Koné, Bachirou 26 September 2017 (has links) La BPCO se traduit rapidement par l'apparition d'une susceptibilité aux infections liées aux atteintes des mécanismes de défense du poumon. Les travaux antérieurs de l’équipe montrent qu'une altération de la réponse IL-17/IL-22 et de la fonction des cellules dendritiques (DC) participe au développement de l’exacerbation de la BPCO par les bactéries. Les mécanismes responsables de ce défaut de réponse ne sont pas élucidés. Au cours de cette thèse, nous nous sommes intéressés aux points suivants :1-Mécanismes cellulaires responsables du défaut de production d'IL-17 et d'IL-22 au cours de l'infection.Les cellules présentatrices d'antigène (APC) et en particulier, les DC jouent un rôle essentiel dans la réponse antimicrobienne, par leur fonction de phagocytes et par l’activation et la polarisation de cellules immunitaires innées et adaptatives. Sur des modèles murins d’exacerbation de la BPCO par Streptococcus pneumoniae ou Haemophilus influenzae non typable (NTHi), nous avons réalisé des tris de macrophages, DC et monocytes inflammatoires du poumon par cytométrie en flux. Ces analyses montrent que les cellules APC pulmonaires présentent des altérations fonctionnelles aboutissant à une limitation de leur capacité à polariser la réponse Th17 de Lymphocytes T CD4+. Une analyse transcriptomique est également effectuée sur les ARN des APC triées afin de préciser les altérations fonctionnelles de ces cellules par rapport aux souris contrôles.2-Rôle des cytokines IL-20 dans la susceptibilité à l'infection et l'exacerbation de la BPCO Myles et al ont montré en 2013 que les cytokines IL-20 (IL-19, IL-20 et IL-24) jouent un rôle délétère dans la réponse immunitaire cutanée contre Staphylococcus aureus par un mécanisme impliquant une inhibition indirecte d’IL-17 produite par les cellules T. La fonction des DC peut être affecté par l'environnement cytokinique. Comme les cytokines IL-20 sont surexprimées chez les souris BPCO, notre objectif a été de définir leur rôle au cours de l'exacerbation de la BPCO et l'impact de ces cytokines sur les DC dans ce contexte.Dans notre modèle d’exacerbation de la BPCO, nous avons bloqué cette voie en neutralisant l'IL-20RB qui est commune aux 2 récepteurs de ces cytokines afin d’étudier leur impact sur l'exacerbation et sur la réponse immune associée, notamment la réponse IL-17/IL-22. En parallèle, nous avons analysé la modulation de la fonction des DC humaines par ces cytokines dans un contexte d'infection bactérienne. Nos résultats montrent que le traitement avec l'anticorps bloquant anti-IL-20RB permet de bloquer le développement de l'exacerbation de la BPCO en diminuant la charge bactérienne et l'inflammation associée. Cet effet est associé à une diminution importante de la mobilisation des DC dans le poumon mais sans affecter sur la réponse IL-17/IL-22. In vitro, les cytokines IL-20 sont produites par les DC dans un contexte infectieux. De plus, ces cytokines sont capables de diminuer l'activation des ces cellules par les bactéries et de réduire leur capacité à activer les Lymphocytes T dans ce contexte.3-Capacité d'un immunostimulant à restaurer la réponse IL-17/IL-22, et à limiter le développement de l'exacerbation.L’utilisation d’immunostimulant dont la flagelline (agoniste du TLR-5, principale composante du flagelle bactérien) est souvent proposé comment pouvant promouvoir la réponse immunitaire des muqueuses et en particulier la réponse IL-17/IL-22. Nous avons analysé la capacité de cet agoniste du TLR-5 à améliorer la réponse à S. pneumoniae et NTHi dans notre modèle d’exacerbation de la BPCO.Le traitement par la flagelline permet de limiter les conséquences de l'infection bactérienne chez les souris BPCO en diminuant l'inflammation et les lésions pulmonaires associées. L'effet de ce ligand de TLR est au moins en partie dépendant de la production d'IL-22._A terme, ces données permettent d'envisager de nouvelles options thérapeutiques pour le traitement des exacerbations de la BPCO. / Patients with COPD often presented a susceptibility to respiratory infections. Previous works in our lab have showed that a defect of IL-17/IL-22 response and an altered dendritic cell (DC) function is involved in COPD exacerbation with bacteria. However, the mechanism responsible for this defect is not elucidated yet. In order to better define these mechanisms and to develop new therapeutic approaches against COPD exacerbation, we focused on the following points during this PhD project:1-Cellular mechanisms responsible of the defect of IL-17 and IL-22 production during infection in COPD.Antigen presenting cells (APC) particularly, DC are essential in antimicrobial immune response since they are professional phagocytes able to engulf and kill bacteria, but also by their essential role in the polarization of innate and adaptive immune responses. We worked on COPD exacerbation mice model infected with Streptococcus pneumoniae or Nontypeable Haemophilus influenzae (NTHi). APC including macrophages, DC and inflammatory monocytes were sorted by flow cytometry for phenotype and functional analysis. We found an altered function of these lung APC showing limited capacity of Th17 polarization. Transcriptional analysis on total RNA from sorted APC is performed to decipher the mechanisms involved in this functional alteration regarding to control mice.2-The role of IL-20 cytokines in the susceptibility to infection during COPD exacerbation.Myles et al showed in 2013 that IL-20 cytokines (IL-19, IL-20 and IL-24) are deleterious in skin immune response against Staphylococcus aureus. Indeed, these IL-20 cytokines indirectly inhibited IL-17 produced by T cells. The function of DC is also controlled by the presence of cytokines in the microenvironment. Because IL-20 cytokines are overexpressed in COPD, we aimed to determine their role during COPD exacerbation and the impact on DC.We used IL-20RB (common subunits of the 2 receptors) neutralizing antibodies to blocked IL-20 cytokines in COPD exacerbation mice model. We analyzed the impact of this treatment on the immune response, more particularly IL-17/IL-22 response. In addition, we analyzed the modulation of human monocyte derived DC (MDDC) function by IL-20 cytokines in the context of bacterial infection.Our results shows that treatment with IL-20 RB neutralizing antibodies limited COPD exacerbation by reducing the bacterial burden and the associated inflammatory response. This process was associated to reduced number of DC in the lung without impacting IL-17 and IL-22 production. In vitro, MDDC produced IL-20 cytokines upon bacterial infection. Additionally, these cytokines impaired MDDC activation following bacterial infection, which was associated to a reduced capacity of MDDC to activate T lymphocytes.3-The possibility to restore IL-17 and IL-22 response with immuno-stimulants in order to limit the development of COPD exacerbation.Flagellin (a TLR-5 agonist, the main component of bacterial flagellum) is an immuno-stimulant often used to promote mucosal immune response. This activity is related to its ability to promote IL-17 and IL-22 production. In this PhD work, we analyzed the capacity of this TLR-5 agonist to improve the immune response during S. pneumoniae and NTHi infection in COPD exacerbation mice model.Flagellin treatment reduced the bacterial burden and limited the consequences of bacterial infection in COPD mice, by lowering the inflammation and the associated lung remodeling. We also found that the immunomodulatory effect of flagellin was at least partially IL-22 dependent.Finally, these data allow to identify new therapeutic tools potentially useful for the treatment of COPD exacerbations. BPCO Exacerbation Streptococcus pneumoniae Haemophilus influenzae non typable Flagelline Cytokines IL-20 IL-17/22 Chronic obstructive pulmonary disease COPD Exacerbation Streptococcus pneumoniae Non typable Haemophilus influenza Flagellin IL-20 cytokines IL-17/22
50	Influence of Microbial Products on the Developmental Programming of the Enteric Nervous System Popov, Jelena January 2018 (has links) Bacterial colonization of the gastrointestinal (GI) tract takes place during the perinatal period, thus coinciding with a critical window of enteric nervous system (ENS) development. Previous work has found that the myenteric plexus of germ free (GF) mice exhibits structural and functional aberrancies in the early postnatal period as compared to specific pathogen free (SPF) and altered Schaedler flora (ASF) mice. These early life disruptions in ENS development in GF mice compared to SPF mice, and more specifically ASF mice, support the notion that a simple intestinal flora is sufficient for directing perinatal ENS development. It has previously been believed that the intrauterine environment during fetal development is sterile. Recent evidence showing successful isolation of microbial communities from embryonic cord blood and newborn meconium that are not of maternal origin suggests that the intrauterine environment is not sterile and is unique to the fetus. Coinciding with this timeline of fetal microbial colonization is the development of the ENS through a population of precursors known as enteric neural crest derived cells (ENCDCs). The prenatal period is characterized by rapid expansion and differentiation of ENCDCs into the many enteric neuron subtypes that comprise the ENS. Terminal differentiation of ENCDCs continues into the early postnatal period. In the current study, we tested the hypothesis that ENCDCs interact directly with microbial products during ENS development. Further, these ENCDC-bacterial product interactions influence the proliferation, apoptosis, and chemical coding of enteric neuron precursors. These objectives were carried out in an in vitro model of ENCDCs isolated from the prenatal period that was established for the first time in our lab using immunoselection. Further, this model was characterized at key timepoints for proliferation, apoptosis, and differentiation. Our results are suggestive of direct ENCDC interactions with lipopolysaccharide (LPS), a TLR4 ligand, and flagellin, a TLR5 ligand, in stimulating ENCDC proliferation and differentiation into early born neurons of nitrergic and serotonergic subtypes. Peptidoglycan derivatives, muramyl dipeptide (MDP) and ƴ-D-Glu-mDAP (iE-DAP), ligands for NOD2 and NOD1 respectively, appear to mainly stimulate differentiation into nitrergic neurons, and possibly serotonergic neurons. The lack of apoptosis in all conditions is consistent with the notion that apoptosis is not an important characteristic of ENCDC maturation and ENS development. Finally, the lack of significance for differentiation into dopaminergic neurons could be further evidence of their late born nature, which has previously been reported to be stimulated by serotonin after the emergence of serotonergic neurons. / Thesis / Master of Science (MSc) Developmental Biology Biology Prenatal Development Gut Microbiota Enteric Nervous System Enteric Neural Crest Derived Cells Molecular and Cellular Neuroscience Serotonin Nitric Oxide Dopamine Apoptosis Proliferation Lipopolysaccharide Flagellin Muramyl Dipeptide iE-DAP

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