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Genetic and Immunological Analyses of a Brucella abortus Protein Exhibiting Lectin-like PropertiesVemulapalli, Tracy H. 16 February 2000 (has links)
Brucella abortus is a facultative, intracellular zoonotic pathogen, which can cause undulant fever in humans and abortion in cattle. Despite all of the progress in brucellosis research, there are still many unanswered questions regarding the molecular mechanisms involved in the pathogenesis of Brucella infections. To better understand the Brucella antigens involved in virulence and/or immunity, genetic and immunologic characterization of a 16 kDa protein of B. abortus was performed. Using PCR methods, the gene encoding the 16 kDa protein was cloned and sequenced. PCR and Southern blot analysis revealed that the gene is conserved among the 6 nomen species of Brucella. Overexpression of this protein in B. abortus vaccine strain RB51 was achieved using Brucella groE and sodC promoters as well as its own promoter. Protection and clearance studies were performed in mice to determine the role of this protein in Brucella immunity and pathogenesis. Inoculation with either strain RB51 overexpressing the 16 kDa protein or a DNA vaccine encoding the 16 kDa protein gene failed to provide significant protection. No difference was noted between the splenic clearance of B. abortus strain 2308 and its recombinant overexpressing the 16 kDa protein. A mutant of strain 2308 (2308D16) was created by disrupting the 16 kDa protein's gene with a chloramphenicol resistance cassette. Western blot analysis indicated that the O antigen profile of strain 2308D16 differed from that of strain 2308. Mice cleared strain 2308D16 faster than strain 2308 indicating the potential attenuation of the disruption mutant. Purified 16 kDa protein was obtained by overexpressing it in E. coli via the pRSET expression system. Western blotting results initially identified this protein as an immunoglobulin-binding protein. Hemagglutination assay revealed that the 16 kDa protein exhibits lectin-like properties. Preliminary studies using hemagglutination inhibition identified mannose as a possible sugar to which the 16 kDa protein can interact. The lectin-like properties exhibited by the 16 kDa protein appears to influence smooth lipopolysaccharide production, and thereby may be involved in virulence. / Master of Science
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Incorporation of Physico-Chemical Parameters Into Design of Microarray ExperimentsRatushna, Vladyslava G. 14 June 2005 (has links)
Microarrays containing long oligonucleotides provide sensitive and specific detection of gene expression and are becoming a popular experimental platform. In the process of designing an oligonucleotide microarray for Brucella, we optimized the overall design of the array and created probes to distinguish among the known Brucella species. A 3-way genome comparison identified a set of genes which occur uniquely in only one or two of the sequenced Brucella genomes. Reverse transcriptase PCR assays of over one hundred unique and pairwise-differential regions identified in Brucella revealed several groups of genes that are transcribed in vivo with potential significance for virulence. The structural and thermodynamic properties of a set of 70mer oligonucleotide probes for a combined B. abortus, B. melitensis and B. suis microarray were modeled to help perform quantitative interpretation of the microarray data. Prediction and thermodynamic analysis of secondary structure formation in a genome-wide set of transcripts from Brucella suis 1330 demonstrated that properties of the target molecule have the potential to strongly influence the rate and extent of hybridization between transcript and an oligonucleotide probe in a microarray experiment. Despite relatively high hybridization temperatures used in the modeling process, parts of the target molecules are predicted to be inaccessible to intermolecular hybridization due to the formation of stable intramolecular secondary structure. Features in the Brucella genomes with potential diagnostic use were identified, and the extent to which target secondary structure, a molecular property which is not considered in the array design process, may influence the quality of results was characterized. / Master of Science
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Evaluation of the Aging Immune System Using a Mouse Model of Brucella InfectionPrasad, Rajeev 16 December 2008 (has links)
Aging is accompanied by dysregulated immune function resulting in increased susceptibility of the elderly to diseases caused by microbial pathogens. There exists a multitude of data suggesting decreased resistance of the elderly to a variety of intracellular pathogens but there is no data relating the effect of aging on the immune response against Brucella. To elucidate the mechanism of immune dysregulation in old, old and young DBA/2 and BALB/c mice were infected with wild-type B. abortus strain 2308. The old and young mice were also vaccinated with vaccine B. abortus strain RB51 over-expressing Cu-Zn superoxide dismutase (SOD) and then challenged with B. abortus strain 2308 to determine the effect of vaccination in old vs. young mice. Specific IgG1 and IgG2a response to Brucella antigens were also evaluated to determine the effect of aging on Th-specificity of the immune response against Brucella infection. The immune response in aged vs. young mice was further assessed using RT-PCR and cytokine antibody array to determine the type of T-helper response. The experimental results indicate that all mice, regardless of age, survived infection ranging from doses of 2 x 104 to - 2 x 108 CFU. Though the older DBA/2 mice had a higher organism burden after 1 week of infection, these mice cleared Brucella infection more efficiently (5 weeks post-infection) than young mice. Vaccination with strain RB51 over-expressing SOD provided significant protection in young DBA/2, young BALB/c and old BALB/c mice but not in old DBA/2 mice after strain 2308 challenge. The results also suggest that old mice produced a different magnitude of IgG1 and IgG2a response to bacterioferritin and SOD of Brucella. The data suggests that both Th17 as well as Th1 responses were accentuated in old mice as compared to young mice following infection with Brucella. How the Th17 and Th1 branches of immune system work together enabling old mice to clear Brucella better than young mice warrants future investigation. / Master of Science
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Immunocontraceptive vaccines against brucellosis and population growth in feral swineSmith, Garrett Paul 26 October 2016 (has links)
Feral swine are a nuisance species across the United States that costs around $1.5 billion each year in agricultural, environmental, and personal property damages. In the last ten years the population of feral swine is estimated to have quadrupled and novel population control methods are needed. Furthermore, feral swine are known carriers of zoonotic diseases such as brucellosis, which threatens both livestock biosecurity and public health. Recombinant multimeric gonadotropin-releasing hormone (mGnRH) has been previously used as a subunit vaccine to induce immunocontraception in feral pigs. However, potent adjuvants and large amounts of purified antigen are needed to elicit a robust anti-GnRH immune response and current delivery methods are limited. Brucella suis strain VTRS2 can be used as a novel platform to deliver mGnRH without the use of antibiotic resistant markers. Strain VTRS2 was created by deletion of the LPS biosynthesis gene wboA as well as the leuB gene required for leucine biosynthesis inside the nutrient-depleted intracellular environment occupied by Brucella. Mutations in wboA are known to attenuate Brucella strains such as the vaccine strain B. abortus RB51, however strain RB51 is rifampin resistant and has poor efficacy in swine. Strain VTRS2 confers significant protection against B. suis challenge in mice and additionally shows evidence of protection in feral swine. Furthermore, the mGnRH antigen can be delivered using the pNS4 plasmid (which expresses leuB under its native promoter) thus maintaining the plasmid in strain VTRS2 under leucine-deficient conditions while expressing recombinant antigen in the host. The murine model was used to determine the clearance kinetics of strain VTRS2-mGnRH and to measure vaccine efficacy against challenge by virulent B. suis 1330. Subsequently the effects of the VTRS2-mGnRH vaccine on fertility were assessed in breeding trials in mice. Strains VTRS2 and VTRS2-mGnRH were found to be protective against virulent Brucella suis challenge. Strain VTRS2-mGnRH elicited an anti-mGnRH antibody response in vaccinated mice, though an effect on fertility was not observed. An improved vaccine against brucellosis in swine, which also confers immunocontraception without the introduction of antibiotic resistance, could become an important tool in the management of this nuisance invasive species. / Ph. D. / Feral swine (<i>Sus scrofa</i>) are a major invasive species in the United States. Their population is estimated to have quadrupled in the past ten years and their geographic range has expanded to include at least 39 states. In addition to causing over $1.5 billion annually in agricultural, environmental, and property damages, feral swine also carry several diseases of public health and agricultural significance including influenza, leptospirosis, and brucellosis. Among these diseases, brucellosis, caused by the bacterial organism <i>Brucella suis</i>, is of particular concern because of its ability to cause reproductive losses in domestic swine and cattle as well as a debilitating febrile illness in humans. The disease has been eradicated from domestic livestock in the United States, and reintroduction could have severe consequences for both animal agriculture and public health. With the continued expansion of the feral swine population, the potential for spillover of disease into domestic livestock and humans increases. Additional tools are therefore needed to aid in both population and disease control. Immunocontraceptive vaccines have previously been used to reduce population growth in wildlife, and have been proposed for use in feral swine. Immunocontraceptives work by introducing an immunogenic form of a reproductive hormone which then causes an autoimmune response against the natural form of the hormone produced by the animal. This work describes the development of the <i>B. suis</i> vaccine strain VTRS2-mGnRHb, which was created from a virulent strain of <i>B. suis</i> to make an attenuated live vaccine capable of delivering the immunocontraceptive antigen mGnRH. The goals of strain VTRS2 were to act as a vaccine which protect against virulent <i>B. suis</i> challenge and which confers an infertility effect in the mouse model. An improved vaccine against brucellosis in feral swine, which also confers an infertility effect, could become an important tool in the management of this nuisance invasive species.
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Contrôle et modulation de la réponse immunitaire par Brucella abortus / Control and modulation of the immune response by Brucella abortusDegos, Clara 27 November 2014 (has links)
Brucella est une bactérie pathogène intracellulaire responsable d'une maladie, la brucellose. Sa capacité à établir une infection chronique est due aux mécanismes qu'elle déploie pour inhiber la réponse immunitaire. Parmi les cellules infectées, les cellules dendritiques (DC) et les macrophages (MO) jouent un rôle primordial dans l'induction de la réponse immunitaire. Nous avons étudié le rôle d'un récepteur des DC, des lymphocytes T (LT), MO : CD150. Il participe à l'activation des LT et il a été montré que CD150 est capable de reconnaître des protéines de l'enveloppe bactérienne, ce qui conduit à une augmentation de son expression à la membrane des MO. Nous avons découvert que l'expression de CD150 sur les DC dérivées de moelle osseuse (BMDC) augmente en présence d'extraits membranaire de Brucella, sauf quand ces derniers proviennent d'un mutant pour Omp25 (∆omp25). L'infection de BMDC par ∆omp25 active les BMDC en termes d'expression de molécules de co-stimulation, d'ARNm pro-inflammatoires (cytokines) et de translocation de NF-κB dans le noyau. En comparant avec une souche sauvage de Brucella, l'activation par ∆omp25 est plus importante. En absence de CD150 la translocation de NF-κB dans les BMDC infectées par la souche sauvage est aussi importante que celle induite par l'infection par ∆omp25. In vivo CD150 contrôle la réplication de Brucella dans la rate de souris infectées. Nous avons démontré que CD150 est capable de lier Omp25. Nous avons identifié un nouveau mécanisme par lequel Brucella inhibe l'activation des DC : la liaison d'Omp25 à CD150. Ce récepteur joue un double rôle puisqu'il est aussi crucial dans le contrôle de la survie de Brucella in vivo. / Brucella is a pathogenic intracellular bacterium responsible for a disease, brucellosis. The ability of Brucella to establish a chronic infection is linked to the mechanism it uses to inhibit immune response. Among Brucella infected cells, dendritic cells (DC) and macrophages play a crucial role in the induction of an immune response. We studied the role of one receptor present at the DC, T cells, macrophages surface: CD150. This molecule participates at the T cell activation and it was shown recently that CD150 can recognize bacterial membrane proteins which lead to its own upregulation. We discovered that CD150 expression onto bone-marrow derived DC (BMDC) is increased when these cells are treated with Brucella membrane extracts, except when those extracts are coming from a mutant for Omp25(∆omp25), a Brucella membrane protein. BMDC infection with ∆omp25 leads to BMDC activation regarding co-stimulatory molecule expression, cytokines and chemokines secretion, pro-inflammatory mRNA expression and NF-κB translocation within the nucleus. In comparison with infection with the wild type strain, ∆omp25 induces a higher activation of BMDC. In absence of CD150, NF-κB translocation within the nucleus of infected-BMDC is the same between the wild type strain and ∆omp25. In vivo, CD150 controls Brucella replication in the spleen of infected mice, and Omp25 infection seems to trigger a higher inflammation in control mice. We finally demonstrate that CD150 binds Omp25. Here, we identified a new mechanism by which Brucella is able to inhibit DC activation: binding of Omp25 to CD150. This receptor plays a dual role since it is also required for controlling Brucella growth in mice.
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Avaliação de marcadores sorológicos, microbiológicos e moleculares para diagnóstico da brucelose canina / Evaluation of serological, microbiological and molecular markers for canine brucellosis diagnosisLima, Julia Teresa Ribeiro de 07 March 2018 (has links)
A brucelose causada pela B. canis constitui uma infecção sistêmica e zoonótica que acomete principalmente os cães, causando problemas reprodutivos. O diagnóstico da infecção é difícil, sendo necessária a associação do diagnóstico clínico aos métodos laboratoriais diretos e indiretos para sua confirmação. Um dos problemas relativos ao diagnóstico laboratorial está relacionado à ausência de marcadores que possibilitem a identificação acurada de cães em ausência de bacteremia. A partir do exposto, foi realizado um estudo com o objetivo de avaliar o desempenho de testes laboratoriais diretos e indiretos como marcadores da infecção por B. canis em cães e determinar a combinação de testes que possibilite o diagnóstico da brucelose canina com maiores valores de sensibilidade e especificidade. Foram coletadas amostras de sangue, soro e aspirado de linfonodo de 92 cães, sem distinção de sexo, idade ou raça, incluindo cães reprodutores e não reprodutores. A hemocultura e a reação em cadeia pela polimerase (PCR) foram previamente realizadas nas amostras de sangue e, com base nos resultados, os 92 animais foram divididos em dois grupos: infectados (n=37) e não infectados (n= 55). Em seguida, as amostras de aspirado de linfonodo foram submetidas à PCR e ao cultivo microbiológico e as amostras de soro foram testadas por um ensaio imunocromatográfico (EIC). A partir dos resultados obtidos, a sensibilidade e especificidade diagnóstica dos testes foram calculadas utilizando os grupos infectados e não infectados, respectivamente. O coeficiente Kappa foi usado para calcular a concordância entres os testes laboratoriais e suas combinações. A proporção de resultados positivos foi de 40,2% (37/92) para os testes diretos em amostras de sangue, 29% (27/92) e 25% (23/92) para PCR e cultivo em amostras de aspirado de linfonodo, respectivamente, e 43% (40/92) para o EIC. A concordância entre os testes variou de moderada a quase perfeita. A sensibilidade e especificidade diagnóstica foram, respectivamente, 65% e 95% para PCR em amostras de aspirado de linfonodo, 62% e 100% para o cultivo microbiológico em amostras de aspirado de linfonodo e 92% e 89% para o EIC. A PCR em amostras de aspirados de linfonodos apresentou maior sensibilidade em relação ao cultivo aplicado a estas amostras, sendo uma alternativa ao diagnóstico microbiológico. A associação entre os testes de PCR em amostras de aspirados de linfonodos e de sangue e o EIC possibilitou um aumento da sensibilidade diagnóstica, por possibilitar a identificação de cães na ausência e na presença de bacteremia, com maior rapidez. / Brucellosis caused by B. canis is a systemic and zoonotic infection characterized by prolonged bacteremia that affects mainly dogs causing reproductive problems. The diagnosis of the infection is quite difficult, being necessary the association of the clinical diagnosis with direct and indirect laboratory methods to confirm the infection. The main drawback regarding the laboratory diagnosis relies on the lack of markers that allow the accurate identification of non bacteremic dogs. From the above, a study was carried out to evaluate the performance of direct and indirect laboratory tests as markers for B. canis infection in dogs and to determine the combination of tests that allows the diagnosis of the infection with higher values of sensitivity and specificity. Samples of blood, serum and lymph node aspirates were collected from 92 dogs, regardless the sex, age or breed, including pet and breeding dogs. All the dogs were tested using culturing and the polymerase chain reaction (PCR) in blood samples and, based on the results, they were divided into two groups: infected (n = 37) and non-infected (n = 55). Lymph node aspirates were tested through PCR and microbiological culturing, and serum samples using an immunochromatographic assay (EIC). The infected and uninfected groups were used to calculate, respectively, the sensitivity and specificity of the tests. The agreement between the tests was calculated using Kappa coefficient. The proportion of positive results was 40.2% (37/92) for the direct tests in blood samples, 29% (27/92) and 25% (23/92) for PCR and lymph node culturing, respectively, and 43% (40/92) for the EIC. The agreement between the tests ranged from moderate to near perfect. The sensitivity and specificity was, respectively, 65% and 95% for PCR in lymph node aspirates, 62% and 100% for lymph node culturing, and 92% and 89% for EIC. The PCR in lymph node aspirates showed a higher sensitivity when compared to the lymph node culturing, being an alternative to the microbiological diagnosis. The association between PCR in blood and lymph node aspirates and the EIC enabled an increased sensitivity in the diagnosis with the identification of non-bacteremic dogs more rapidly.
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Avaliação de marcadores sorológicos, microbiológicos e moleculares para diagnóstico da brucelose canina / Evaluation of serological, microbiological and molecular markers for canine brucellosis diagnosisJulia Teresa Ribeiro de Lima 07 March 2018 (has links)
A brucelose causada pela B. canis constitui uma infecção sistêmica e zoonótica que acomete principalmente os cães, causando problemas reprodutivos. O diagnóstico da infecção é difícil, sendo necessária a associação do diagnóstico clínico aos métodos laboratoriais diretos e indiretos para sua confirmação. Um dos problemas relativos ao diagnóstico laboratorial está relacionado à ausência de marcadores que possibilitem a identificação acurada de cães em ausência de bacteremia. A partir do exposto, foi realizado um estudo com o objetivo de avaliar o desempenho de testes laboratoriais diretos e indiretos como marcadores da infecção por B. canis em cães e determinar a combinação de testes que possibilite o diagnóstico da brucelose canina com maiores valores de sensibilidade e especificidade. Foram coletadas amostras de sangue, soro e aspirado de linfonodo de 92 cães, sem distinção de sexo, idade ou raça, incluindo cães reprodutores e não reprodutores. A hemocultura e a reação em cadeia pela polimerase (PCR) foram previamente realizadas nas amostras de sangue e, com base nos resultados, os 92 animais foram divididos em dois grupos: infectados (n=37) e não infectados (n= 55). Em seguida, as amostras de aspirado de linfonodo foram submetidas à PCR e ao cultivo microbiológico e as amostras de soro foram testadas por um ensaio imunocromatográfico (EIC). A partir dos resultados obtidos, a sensibilidade e especificidade diagnóstica dos testes foram calculadas utilizando os grupos infectados e não infectados, respectivamente. O coeficiente Kappa foi usado para calcular a concordância entres os testes laboratoriais e suas combinações. A proporção de resultados positivos foi de 40,2% (37/92) para os testes diretos em amostras de sangue, 29% (27/92) e 25% (23/92) para PCR e cultivo em amostras de aspirado de linfonodo, respectivamente, e 43% (40/92) para o EIC. A concordância entre os testes variou de moderada a quase perfeita. A sensibilidade e especificidade diagnóstica foram, respectivamente, 65% e 95% para PCR em amostras de aspirado de linfonodo, 62% e 100% para o cultivo microbiológico em amostras de aspirado de linfonodo e 92% e 89% para o EIC. A PCR em amostras de aspirados de linfonodos apresentou maior sensibilidade em relação ao cultivo aplicado a estas amostras, sendo uma alternativa ao diagnóstico microbiológico. A associação entre os testes de PCR em amostras de aspirados de linfonodos e de sangue e o EIC possibilitou um aumento da sensibilidade diagnóstica, por possibilitar a identificação de cães na ausência e na presença de bacteremia, com maior rapidez. / Brucellosis caused by B. canis is a systemic and zoonotic infection characterized by prolonged bacteremia that affects mainly dogs causing reproductive problems. The diagnosis of the infection is quite difficult, being necessary the association of the clinical diagnosis with direct and indirect laboratory methods to confirm the infection. The main drawback regarding the laboratory diagnosis relies on the lack of markers that allow the accurate identification of non bacteremic dogs. From the above, a study was carried out to evaluate the performance of direct and indirect laboratory tests as markers for B. canis infection in dogs and to determine the combination of tests that allows the diagnosis of the infection with higher values of sensitivity and specificity. Samples of blood, serum and lymph node aspirates were collected from 92 dogs, regardless the sex, age or breed, including pet and breeding dogs. All the dogs were tested using culturing and the polymerase chain reaction (PCR) in blood samples and, based on the results, they were divided into two groups: infected (n = 37) and non-infected (n = 55). Lymph node aspirates were tested through PCR and microbiological culturing, and serum samples using an immunochromatographic assay (EIC). The infected and uninfected groups were used to calculate, respectively, the sensitivity and specificity of the tests. The agreement between the tests was calculated using Kappa coefficient. The proportion of positive results was 40.2% (37/92) for the direct tests in blood samples, 29% (27/92) and 25% (23/92) for PCR and lymph node culturing, respectively, and 43% (40/92) for the EIC. The agreement between the tests ranged from moderate to near perfect. The sensitivity and specificity was, respectively, 65% and 95% for PCR in lymph node aspirates, 62% and 100% for lymph node culturing, and 92% and 89% for EIC. The PCR in lymph node aspirates showed a higher sensitivity when compared to the lymph node culturing, being an alternative to the microbiological diagnosis. The association between PCR in blood and lymph node aspirates and the EIC enabled an increased sensitivity in the diagnosis with the identification of non-bacteremic dogs more rapidly.
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Avaliação da influência das moléculas PD-1, CD39 e CD73 na imunomodulação induzida pela infecção com a bactéria Brucella AbortusMelo, Juliana 22 February 2017 (has links)
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Previous issue date: 2017-02-22 / A brucelose é uma doença infectocontagiosa causada por bactérias do gênero Brucella que acometem o homem e uma grande variedade de animais domésticos, resultando em prejuízos econômicos significativos aos sistemas de produção. Em humanos essa infecção pode causar febre ondulante, endocardite, artrite, osteomielite e complicações neurológicas enquanto em animais leva ao aborto e infertilidade. Sabe-se que a resposta imunológica a bactérias intracelulares como a Brucella ocorre essencialmente através da imunidade mediada por células, sendo macrófagos especialmente importantes no combate à infecção. Entretanto, apesar da efetividade da resposta, a B. abortus conta com diversos mecanismos de evasão, o que garante a sua sobrevivência no organismo hospedeiro. Dentre estes mecanismos, a modulação de células apresentadoras de antígenos tem sido apontada como um dos mais relevantes. Recentemente, diversos trabalhos têm evidenciado a importância das NTPDases e da molécula PD-1 na modulação da resposta imune. As NTPDases estão envolidas com a produção de adenosina que apresenta relevante caráter imunomodulador. Já a molécula PD-1 está associada a indução de um perfil anti-inflamatório com diminuição de IL-12 e aumento de IL-10. Neste contexto, o objetivo deste estudo foi determinar se a infecção com B. abortus é capaz de alterar a expressão destas moléculas e assim limitar a ação do sistema imune, favorecendo a sobrevivência do patógeno. Para isso, células RAW 264.7 foram infectadas com B.abortus e a modulação das moléculas CD80, CD86, CD40, MHCII, foi avaliada por citometria de fluxo. Em seguida, a expressão de CD39 também foi determinada por citometria de fluxo e por Western Blot. Por fim analisamos possíveis alterações na expressão da molécula PD-1 induzidas pela bactéria. Como resultados, foi confirmado que a infecção é capaz de inibir a expressão de CD80, CD86 e CD40, embora o mesmo não tenha sido observado com o MHCII. Além disso, a expressão de CD40 se mostrou diminuída mesmo após o estímulo com LPS. De forma surpreendente, foi observada uma diminuição na expressão das moléculas CD39 e PD-1, o que pode ser explicado pela menor ativação celular induzida pela infecção. Assim, os dados obtidos até o momento demonstram que as moléculas CD39 e PD-1 não são utilizadas pela Brucella para
modular as APCs, mas são influenciados pela menor ativação celular induzida pelo patógeno. / Brucellosis is an infectious disease caused by bacteria of the genus Brucella that affect humans and a wide variety of domestic animals, resulting in significant economic losses to production systems. In humans the infection can cause undulant fever, endocarditis, arthritis, osteomyelitis and neurological complications while in animals leads to abortion and infertility. It is known that the immune response to intracellular bacteria such as Brucella occurs primarily by cell-mediated immunity, macrophage being especially important in fighting infection. However, despite the effectiveness of the response, B. abortus has several avoidance schemes, which ensures their survival in the host organism. Among these mechanisms, modulation of antigen-presenting cells has been identified as one of the most relevant. Recently, several studies have shown the importance NTPDase and PD-1 molecule to modulate the immune response. The NTPDase are envolidas with the production of adenosine which presents immunomodulatory relevant character. Since PD-1 molecule is associated with induction of an anti-inflammatory profile with decreased IL-12 and IL-10 increase. In this context, the aim of this study was to determine whether infection with B. abortus is able to alter the expression of these molecules and thus limit the action of the immune system, favoring the survival of the pathogen. To this end, RAW 264.7 cells were infected with B.abortus and modulation of CD80 molecules, CD86, CD40, MHCII, was evaluated by flow cytometry. Then the CD39 expression was also determined by flow cytometry and Western blot. Finally, we analyze possible changes in PD-1 molecule expression induced by bacteria. As a result, it was confirmed that the infection is capable of inhibiting expression of CD80, CD86 and CD40, although this has not been observed with MHCII. Additionally, CD40 expression showed decreased even after the stimulation with LPS. Surprisingly, it was observed a decrease in the expression of CD39 and PD-1
molecules, which can be explained by the lower cellular activation induced by the infection. Thus, the data obtained so far show that the PD-1 and CD39 molecules are not used by Brucella Modular APCs but are less influenced by cellular activation induced by the pathogen.
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Avaliação do papel da IL-10 endógena na infecção pela bactéria Brucella abortus em modelo murinoCorsetti, Patrícia Paiva 07 October 2011 (has links)
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Previous issue date: 2011-10-07 / Brucella abortus é uma bactéria patogênica Gram-negativa, que causa uma doença crônica em bovinos, humanos e outras espécies denominada brucelose. A habilidade do hospedeiro em montar uma resposta tipo Th1/pró-inflamatória contra a bactéria é crucial para o controle e resolução da infecção. Evidências sugerem que a citocina IFN-γ produzida pelo perfil Th1 é crucial para o controle da infecção em camundongos. A interleucina-10 (IL-10) é conhecida por diminuir a produção de IFNγ in vitro interferindo diretamente no processo da eliminação do patógeno. Durante a infecção pela B. abortus, a IL-10 pode atuar limitando a resposta inflamatória e favorecendo o estabelecimento da infecção persistente em camundongos. O objetivo deste estudo foi avaliar o papel da IL-10 endógena na infecção pela B. abortus. Para acessar o papel da IL-10, camundongos deficientes para IL-10 (IL-10 KO) ou 129 Sv/Ev foram infectados com a cepa S2308 de B. abortus e foram avaliados os númerso de bactérias viáveis recuperadas no baço desses animais. Uma, 2, 3, 6 e 14 semanas após infecção, camundongos IL-10 KO apresentaram menor número de bactérias recuperadas quando comparadas com o grupo controle em todos os tempos de infecção, principalmente em 14 semanas. Adicionalmente, constatou-se por análise de curva de sobrevivência em um período de 14 semanas após infecção que aproximadamente 35% dos camundongos IL-10 KO morrem somente na 2ª ou 3ª semana. Ademais, a produção de IFN-γ, IL-10, IL-17 e TNF-α foi avaliada em esplenócitos dos camundongos infectados quando estimulados in vitro com a B. abortus viva (S2308), morta pelo calor (HKBA), LPS de E. coli ou ConA. Os animais IL-10 KO apresentaram uma maior quantidade de IFN-γ e TNF-α no sobrenadante das células estimuladas com Brucella quando comparada a produção destas citocinas pelas células provenientes dos camundongos 129 Sv/Ev. A citocina IL-17 somente foi produzida pelas células dos animais IL-10 KO em todos os tempos analisados. Adicionalmente, a produção de TNF-α, IL-6, IL-12-p40, NO e IL-10 foram avaliados em macrófagos derivados da medula óssea, dos animais IL-10 KO e 129 Sv/Ev. TNF-α, NO, IL-6 e IL-12 apresentaram aumento nos animais IL-10 KO apenas quando estimulados com HKBA. Entretanto, nos animais 129 Sv/Ev a bactéria viva e morta estimularam a produção de IL-10. Estas mesmas citocinas foram avaliadas em sobrenadante de cultura de células dendríticas derivadas da medula óssea. Níveis mais elevados de TNF-α e IL-12-p40 foram obtidos no
sobrenadante de células de animais IL-10 KO quando comparados ao grupo controle, em todos os tempos e estímulos da cinética de infecção. A expressão de TGF-β foi avaliada por PCR em tempo real em células esplênicas nos tempos 0 (não infectado), 1, 2 e 6 semanas de infecção estimulados com a bactéria viva. Na 2ª semana após infecção os animais IL-10 KO expressaram níveis mais elevados de TGF-β em relação ao grupo controle, porém na 6ª semana este perfil é invertido. Adicionalmente, o nível de células CD4+CD25+Foxp3+ (Treg) presente no baço dos animais infectados foi analisado por citometria de fluxo. Esta população encontrouse aumentada nos animais IL-10 KO a partir da 3ª e 6ª semanas após a infecção. Análises histopatológicas descritiva dos fígados destes animais durante toda a cinética de infecção demonstraram a diminuição gradativa dos granulomas nos dois grupos estudados, porém essa redução foi mais eficiente nos camundongos IL-10 KO principalmente na 6ª semana após a infecção considerando-se a área do granuloma, analisada por morfemetria digital, e a recuperação do parênquima hepático. Em conjunto, os dados obtidos neste trabalho suportam que a ausência da produção da IL-10 está associada a uma maior resistência à infecção pela bactéria B. abortus em modelo murino, através do aumento da produção de citocinas próinflamatórias culminando com uma maior eliminação da bactéria e uma resolução mais rápida da patologia tecidual do hospedeiro levando, assim, a um controle efetivo da infecção. / Brucella abortus is a Gram-negative pathogenic bacterium which causes a chronic disease in bovine, humans and others species called brucellosis. The host ability to mount a Th1/pro-inflammatory response against the bacteria is crucial to control and to solve the infection. It is suggested that IFN-γ produced by Th1cells is crucial to control the infection in mice. The interleukin IL-10 is considered to be responsible to decrease the IFN-γ production in vitro interfering directly in the pathogen elimination. During B. abortus infection, IL-10 acts limiting inflammatory response favoring the establishment persistence infection in mice. The goal of this study was evaluated the role of endogenous IL-10 during B. abortus infection. To assess the role of IL-10 in vivo, IL-10 knockout (IL-10 KO) mice or 129 Sv/Ev mice were infected with B. abortus strain S2308 and the number of viable bacteria recovery from the spleen were evaluated. One, 2, 3, 6 and 14 weeks post infection, IL-10 KO mice showed lower number of bacteria in the spleen when compared to wild type mice during all the time points. It was observed the increase of the difference at 14th week post infection. Additionally, it was demonstrated by survival curve in a period of 14 weeks post infection that approximately 35% of IL-10 KO mice died only at 2 or 3 weeks. Furthermore, the IFN-γ, IL-10, IL-17 and TNF-α production were measured in the supernatant from spleen cell culture in vitro when the cells were stimulated with alive B. abortus (S2308), heat killed B. abortus (HKBa), E. coli LPS or ConA. IL-10 KO cells showed greater increase in IFN-γ and TNF-α level in the supernatant from these cells when they were stimulated with Brucella when compared to wild type cells production. IL-17 was only detected in the supernatant from IL-10 KO cells in all time points analyzed. In addition, the TNF-α, IL-6, IL-12-p40, NO and IL-10 levels were evaluated in bone-marrow macrophage derived cell supernatant. TNF-α, NO, IL-6 and IL-12 showed augmented in IL-10 KO cells when stimulated with HKBa. However, only in supernatant from 129 Sv/Ev mice it was observed IL-10 production. In bone-marrow dendritic cell supernatant greater levels of TNF-α and IL-12-p40 were observed in IL-10 KO cells when compared to wild type mice cells during all time points analyzed when the cells were stimulated with all stimulus. The TGF-β expression was evaluated by real time PCR in splenic cells culture at 0 (non-infected cells), 1, 2 and 6 weeks after infection with S2308. At 2 weeks post infection the IL-10 KO cells demonstrated greater increased of TGF-β expression when compared to
wild type cells. At 6 weeks post infection the TGF-β expression profile showed inverted. Additionally, the level of CD4+CD25+Foxp3+ (Treg) cells was assessed at spleen of infected mice by flow cytometry during the infection process. This population was increased at 3th and 6th weeks post infection in IL-10 KO mice. Descriptive histopathology analyses were done at liver level demonstrating a gradual diminishment of granuloma in both kinds of analyzed animals. However, the decrease pathology was more effective at IL-10 KO livers considering the granuloma area, measured by digital morphometry, and the hepatic parenchyma recovery. Taken together, the data provided by this work support that the lack of IL-10 is related to higher resistance to B. abortus infection in murine infection throughout the increase production of pro-inflammatory cytokines culminating with better bacteria elimination and a quicker tissue pathological resolution leading to a more effective control of this infection.
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Aanalyse de l' infection des différents sous-types de cellules dendritiques par Brucella abortus / Brucella abortus infection of different dendritic cell subsetsPapadopoulos, Alexia 10 September 2015 (has links)
Brucella est une bactérie à Gram négatif, responsable de la brucellose, une zoonose ré-émergente. Sans traitement efficace, la pathologie peut devenir chronique et atteindre une grande variété de cellules et d'organes. Il a été montré que cette capacité à persister dans l'organisme pourrait être facilitée par son aptitude à se répliquer dans les cellules dendritiques (DCs) et à contrôler leur maturation in vitro. Les DCs sont considérées comme les cellules présentatrices d'antigènes les plus efficaces du système immunitaire. Elles forment un réseau complexe de cellules composé de plusieurs populations qui différent par leur origine, leur fonction ou leur localisation. Ainsi l'étude des interactions entre Brucella et les DCs doit être approfondie à ces différents sous-types. Dans ce but, nous avons utilisé différents modèles d'obtention de DCs in vitro précédemment décrits dans la littérature. Ces différentes méthodes de culture nous permettent d'obtenir plusieurs populations de cellules qui partagent des caractéristiques phénotypiques et fonctionnelles avec les sous-types observés in vivo. Nous avons ensuite comparé l'infection par Brucella entre le modèle classique utilisant du GMCSF à des méthodes utilisant du Flt3l ou du GMCSF combiné au Flt3l, à l'IL15 encore à l'IL4. Les résultats obtenus montrent que le contrôle de la maturation des DCs n'est pas un phénomène retrouvé dans toutes les populations. Nous avons pu montrer que dans certaines conditions la réplication de Brucella est moins efficace. Le champ d'étude des interactions entre Brucella et les DCs reste étendu et la compréhension de ces mécanismes pourrait fournir des clés pour combattre cette bactérie. / Brucella is a facultative intracellular gram-negative bacterium, responsible for a re-emergent zoonosis called brucellosis. Without effective treatment, the pathology may become chronic and reach a wide variety of cells and organs. This ability to persist into the organism has been pointed out as being presumably facilitated by its aptitude to replicate into dendritic cells (DCs) and to control their in vitro maturation. These cells are regarded as the most efficient antigen-presenting cells of the immune system. They form a complex network of cells consisting of several populations differing from each other from their origin, function or location. As a consequence, the interactions between Brucella and DCs should be studied more deeply as regarding the different subset. For that purpose, we used different models of in vitro DCs from former descriptive studies. These various culture methods allow us to get different population sharing phenotypic and functional features with the subtypes examined in vivo. Then, we compared Brucella infection of classical model using GMCSF to methods using Flt3l or GMCSF combined with Flt3l, IL15 or IL4. The results demonstrate that the control of DCs maturation is not a phenomenon that we can find again in every population. Moreover, we showed that the replication of Brucella is less active under certain conditions. The scope of the study on the interactions between Brucella and DCs remains extensive, and the understanding of those mechanisms might open doors in the fight against this bacterium.
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