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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Atuação de células T reguladoras em episódios reacionais na hanseníase / The role of regulatory-T cells in reaction episodes in leprosy

Vieira, Ana Paula 16 February 2017 (has links)
A hanseníase é geralmente agravada pelo aparecimento de reações, que são quadros inflamatórios de difícil tratamento e a principal causa de seqüelas. Nossa hipótese é de que deficiência e/ou perda da função das células T reguladoras (Tregs) podem estar envolvidas no desenvolvimento das reações. Além da avaliação da frequência das Tregs circulantes em pacientes com reação tipo 1 (R1) e reação tipo 2 (R2), também foi avaliada a frequência in situ de FoxP3, IL-17, IL-6 e TGFbeta. Pacientes com R2 apresentaram expressiva diminuição na frequência das Tregs circulantes e in situ em comparação com pacientes com R1 e com os controles. Paralelamente a diminuição das Tregs nas R2 foi observado aumento da expressão de IL-17 in situ e diminuição da expressão de TGFbeta. Biópsias obtidas de pacientes com R1 e R2 antes do episódio reacional mostraram números de células FoxP3+ e IL-17+ similares entre os dois grupos. Entretanto, nas biópsias obtidas durante a reação foi observado diminuição de Tregs e aumento de células IL-17+ em pacientes com R2, enquanto que pacientes com R1 apresentaram o oposto: aumento de Tregs e diminuição de células IL-17+. Além disso, foi observada diminuição da expansão das Tregs frente ao estímulo in vitro com Mycobacterium leprae e uma tendência a baixa expressão de FoxP3 e da molécula imunossupressora CTLA-4 em Tregs de pacientes com R2. Nossos resultados sugerem que nas R2, a diminuição na frequência de Tregs possa estar favorecendo o desenvolvimento de uma resposta Th17, a qual é característica deste tipo de reação. Adicionalmente, com a finalidade de obter um número suficiente de Tregs para realização de ensaios funcionais com estas células, uma vez que se trata de uma subpopulação com baixa freqüência no sangue periférico ( < 10%), foram estabelecidos e avaliados três protocolos distintos para expansão in vitro de Tregs: protocolo Rapamicina, protocolo TGFbeta e protocolo Vitamina D3. Todos os protocolos foram capazes de induzir expansão de Tregs viáveis nos grupos estudados (paucibacilares e multibacilares sem reação, R1 e R2). Em todos os grupos estudados as Tregs expandidas apresentaram capacidade de suprimir a proliferação de linfócitos TCD4+ e TCD8+. Apesar dos três protocolos testados apresentarem capacidade de expandir Tregs in vitro, selecionamos para ensaios futuros os protocolos Rapamicina e TGFbeta por apresentarem melhor custo-benefício. A expansão in vitro será utilizada para estudos funcionais das Tregs buscando melhor entendimento do envolvimento desta subpopulação na patogenia das reações hansênicas / Leprosy is frequently complicated by the appearance of reactions that are difficult to treat and are the main cause of sequelae. We speculated that disturbances in regulatory T-cells (Tregs) could play a role in leprosy reactions. We determined the frequency of circulating Tregs in patients with type 1 reaction (T1R) and type 2 reaction (T2R). The in situ frequency of FoxP3 and interleukin (IL)-17, IL-6, and transforming growth factor beta (TGF)-beta expressing cells was also determined. T2R patients showed markedly lower number of circulating and in situ Tregs than T1R patients and controls. This decrease was paralleled by increased in situ IL-17 expression but decreased TGF-beta expression. Biopsies from T1R and T2R patients before the reaction episodes showed similar number of forkhead box protein P3 + (FoxP3+) and IL-17+ cells. However, in biopsies taken during the reaction, T2R patients showed a decrease in Tregs and increase in IL-17+ cells, whereas T1R patients showed the opposite: Tregs increased but IL17+ cells decreased. We also found decreased expansion of Tregs upon in vitro stimulation with Mycobacterium leprae and a trend for lower expression of FoxP3 and the immunosuppressive molecule CTLA-4 in T2R Tregs. Our results provide some evidence to the hypothesis that, in T2R, downmodulation of Tregs may favor the development of T-helper-17 responses that characterize this reaction. In addition, aiming to provide sufficient number of Tregs to perform functional assays with these cells, as they correspond to a subtle subpopulation among the peripheral blood mononuclear cells ( < 10%), we established and analyzed three different protocols for in vitro Tregs: a Rapamycin protocol, a TGFbeta protocol and a Vitamina D3 protocol. All three protocols were able to induce the expansion of viable in the four types of patients of the study (paucibacillary and multibacillary patients without reaction, and R1 and R2 patients). In these four groups the tregs were able to suppress the proliferative response of TCD4+ e TCD8+ lymphocytes. Although the three protocols resulted in expansion of Tregs, we selected two of them, Rapamycin and TGFbeta for further assays since they showed better cost-benefit. The in vitro expansion will be used to perform functional assays of the Tregs aiming at a better understanding of the involvement of this subpopulation in the pathogenesis of the leprosy reaction episodes
2

Atuação de células T reguladoras em episódios reacionais na hanseníase / The role of regulatory-T cells in reaction episodes in leprosy

Ana Paula Vieira 16 February 2017 (has links)
A hanseníase é geralmente agravada pelo aparecimento de reações, que são quadros inflamatórios de difícil tratamento e a principal causa de seqüelas. Nossa hipótese é de que deficiência e/ou perda da função das células T reguladoras (Tregs) podem estar envolvidas no desenvolvimento das reações. Além da avaliação da frequência das Tregs circulantes em pacientes com reação tipo 1 (R1) e reação tipo 2 (R2), também foi avaliada a frequência in situ de FoxP3, IL-17, IL-6 e TGFbeta. Pacientes com R2 apresentaram expressiva diminuição na frequência das Tregs circulantes e in situ em comparação com pacientes com R1 e com os controles. Paralelamente a diminuição das Tregs nas R2 foi observado aumento da expressão de IL-17 in situ e diminuição da expressão de TGFbeta. Biópsias obtidas de pacientes com R1 e R2 antes do episódio reacional mostraram números de células FoxP3+ e IL-17+ similares entre os dois grupos. Entretanto, nas biópsias obtidas durante a reação foi observado diminuição de Tregs e aumento de células IL-17+ em pacientes com R2, enquanto que pacientes com R1 apresentaram o oposto: aumento de Tregs e diminuição de células IL-17+. Além disso, foi observada diminuição da expansão das Tregs frente ao estímulo in vitro com Mycobacterium leprae e uma tendência a baixa expressão de FoxP3 e da molécula imunossupressora CTLA-4 em Tregs de pacientes com R2. Nossos resultados sugerem que nas R2, a diminuição na frequência de Tregs possa estar favorecendo o desenvolvimento de uma resposta Th17, a qual é característica deste tipo de reação. Adicionalmente, com a finalidade de obter um número suficiente de Tregs para realização de ensaios funcionais com estas células, uma vez que se trata de uma subpopulação com baixa freqüência no sangue periférico ( < 10%), foram estabelecidos e avaliados três protocolos distintos para expansão in vitro de Tregs: protocolo Rapamicina, protocolo TGFbeta e protocolo Vitamina D3. Todos os protocolos foram capazes de induzir expansão de Tregs viáveis nos grupos estudados (paucibacilares e multibacilares sem reação, R1 e R2). Em todos os grupos estudados as Tregs expandidas apresentaram capacidade de suprimir a proliferação de linfócitos TCD4+ e TCD8+. Apesar dos três protocolos testados apresentarem capacidade de expandir Tregs in vitro, selecionamos para ensaios futuros os protocolos Rapamicina e TGFbeta por apresentarem melhor custo-benefício. A expansão in vitro será utilizada para estudos funcionais das Tregs buscando melhor entendimento do envolvimento desta subpopulação na patogenia das reações hansênicas / Leprosy is frequently complicated by the appearance of reactions that are difficult to treat and are the main cause of sequelae. We speculated that disturbances in regulatory T-cells (Tregs) could play a role in leprosy reactions. We determined the frequency of circulating Tregs in patients with type 1 reaction (T1R) and type 2 reaction (T2R). The in situ frequency of FoxP3 and interleukin (IL)-17, IL-6, and transforming growth factor beta (TGF)-beta expressing cells was also determined. T2R patients showed markedly lower number of circulating and in situ Tregs than T1R patients and controls. This decrease was paralleled by increased in situ IL-17 expression but decreased TGF-beta expression. Biopsies from T1R and T2R patients before the reaction episodes showed similar number of forkhead box protein P3 + (FoxP3+) and IL-17+ cells. However, in biopsies taken during the reaction, T2R patients showed a decrease in Tregs and increase in IL-17+ cells, whereas T1R patients showed the opposite: Tregs increased but IL17+ cells decreased. We also found decreased expansion of Tregs upon in vitro stimulation with Mycobacterium leprae and a trend for lower expression of FoxP3 and the immunosuppressive molecule CTLA-4 in T2R Tregs. Our results provide some evidence to the hypothesis that, in T2R, downmodulation of Tregs may favor the development of T-helper-17 responses that characterize this reaction. In addition, aiming to provide sufficient number of Tregs to perform functional assays with these cells, as they correspond to a subtle subpopulation among the peripheral blood mononuclear cells ( < 10%), we established and analyzed three different protocols for in vitro Tregs: a Rapamycin protocol, a TGFbeta protocol and a Vitamina D3 protocol. All three protocols were able to induce the expansion of viable in the four types of patients of the study (paucibacillary and multibacillary patients without reaction, and R1 and R2 patients). In these four groups the tregs were able to suppress the proliferative response of TCD4+ e TCD8+ lymphocytes. Although the three protocols resulted in expansion of Tregs, we selected two of them, Rapamycin and TGFbeta for further assays since they showed better cost-benefit. The in vitro expansion will be used to perform functional assays of the Tregs aiming at a better understanding of the involvement of this subpopulation in the pathogenesis of the leprosy reaction episodes
3

Role of TNF in Heterologous Immunity between Lymphocytic Choriomeningitis Virus and Vaccinia Virus: A Dissertation

Nie, Siwei 14 November 2008 (has links)
Prior immunity to a related or unrelated pathogen greatly influences the host’s immune response to a subsequent infection and can cause a dramatic difference in disease course, a phenomenon known as heterologous immunity. Heterologous immunity can influence protective immunity, immunopathology and/or immune deviation of cytokine-producing T cell subsets. Examples of heterologous immunity have been well documented in mouse models, as well as during human infections. For example, prior immunity to lymphocytic choriomeningitis virus (LCMV) provides partial protection against vaccinia virus (VV), as LCMV-immune mice show reduced VV titers and increased survival upon lethal dose VV infection. Heterologous protection against VV challenge, as a result of LCMV immunity, is mediated by LCMV-specific CD4 and CD8 T cells, as transfer of LCMV-specific memory T cells can mediate this protective effect in naïve mice. The recognition of a single TCR with more than one MHC-peptide complex is referred to as T cell cross-reactivity. A VV Kb-restricted epitope a11r198 was identified to be able to induce cross-reactive responses from LCMV-specific CD8 T cells. During VV infection, LCMV-specific memory T cells that are cross-reactive to VV epitopes produce IFN-γ early in VV infection. IFN-γ is essential for mediating the protection against VV in LCMV-immune mice, as this heterologous protection is absent in IFN-γR-/-and IFN-γ blocking antibody-treated LCMV-immune mice. In addition to protective immunity, cross-reactive LCMV-specific memory T cells and IFN-γ also induce an altered immunopathology during heterologous VV challenge. LCMV-immune mice show moderate to severe levels of inflammation of the fat tissue, known as panniculitis, in the visceral fat pads upon VV challenge. In humans, panniculitis is a painful condition, most commonly presenting as erythema nodosum. Erythema nodosum is a disease of unknown etiology with no known treatment. It may occur following intracellular bacterial and viral infections, and occasionally happens after vaccination with VV for smallpox. During infections there can be a delicate balance between the ability of immune responses to provide protective immunity, and the tendency to induce immunopathology. By using the mouse model of heterologous immunity between LCMV and VV, we tried to understand how the immunity to LCMV biased the balance between the protective immunity and immunopathology, and what effector molecules were responsible for the pathogenesis of panniculitis in this system. TNF is a pleiotropic cytokine, which is required for normal innate and adaptive immune responses. Its functions range from inducing proliferative responses including cell survival, to destructive responses such as promoting apoptosis and programmed necrosis. In response to inflammatory stimuli, activated macrophages/ monocytes produce large amounts of TNF, and upon activation, T cells, B cells and NK cells also produce TNF. In vitro and in vivo studies have shown that TNF in synergy with IFN-γ plays an important role in mediating host defense against pathogens, such as Listeria monocytogenesand poxviruses in mice and hepatitis B virus and human immunodeficiency virus in humans. However, inappropriate expression of TNF often results in tissue damage. Considering the important role TNF plays in both host defense and mediating autoimmune diseases, we hypothesized that TNF was required for mediating both protective and pathogenic effects in the heterologous immunity between LCMV and VV. We first examined whether TNF was involved in mediating protective heterologous immunity. LCMV-immune mice, that were TNF-deficient as a consequence of genetic deletion (TNF-/-) or receptor blockade by treatment with etanercept (TNFR2: Fc fusion protein), were challenged with VV. These TNF-deficient mice showed normal recruitment and selective expansion of cross-reactive LCMV-specific memory CD8 T cells. They also exhibited efficient clearance of VV similar to LCMV-immune mice with normal TNF function. Thus, we concluded that neither TNF nor lymphotoxin (LT), which uses the same receptors as TNF, was required in mediating protective heterologous immunity against VV. Indeed, prior immunity to LCMV could completely compensate for the role of TNF in protection of naïve mice against VV infection, even under conditions of lethal dose inoculum. Thus, heterologous immunity may help explain why treatment of humans with etanercept is reasonably well tolerated with relatively few infectious complications. One of the histological characteristics of panniculitis is necrosis of adipose tissue. It is known that three members in the TNF superfamily, i.e. TNF/LT, FasL and TRAIL are able to induce necrosis of a target cell. It is also known that TNF is able to induce VV-infected cells to go through necrosis, when apoptosis is blocked in these cells by VV protein. Furthermore, TNF and FasL have already been shown to be associated with some skin and fat pathology. Thus, we hypothesized that TNF, FasL and TRAIL were involved in the pathogenesis of panniculitis in VV infected LCMV-immune mice. By using blocking antibodies or genetically deficient mice, we demonstrated that both TNF/LT and FasL were crucial for inducing panniculitis. Although TNFR1 has been reported to induce programmed necrosis, our data indicated that TNFR2, not TNFR1, was involved in mediating tissue damage in the fat pads of LCMV-immune mice infected with VV. We also found that TNF signaled through TNFR2 to up-regulate the expression of Fas on adipocytes. Thus, the engagement of Fas on the adipocytes with FasL expressed on activated VV-specific and cross-reactive LCMV-specific CD8 T cells in the fat pads could lead to panniculitis. Thus, our data may identify a potential mechanism in the pathogenesis of human panniculitis, and may suggest a possible treatment for this painful disease. Recent reports suggest that heterologous immunity may contribute to the tremendous variation in symptoms between individuals, from subclinical to death, upon viral infection. Even in genetically identical mice, variations in immunopathology from none to life-threatening levels of pathology are observed in LCMV-immune mice during VV infection. By adoptive transfer of splenocytes from a single LCMV-immune donor into two recipients, we showed that similar levels of pathology were generated in mice receiving the same splenocytes. However, the level of pathology varied among recipients receiving splenocytes from different LCMV-immune donors. The difference in levels of VV-induced pathology observed in individual LCMV-immune mice was a reflection of the private specificity of the T cell repertoire, which is a unique characteristic of each individual immune host. The goal of this doctoral thesis is to understand how heterologous immunity contributes to the pathogenesis of panniculitis. Our data demonstrate that TNF/LT and FasL directly contribute to development of panniculitis in LCMV-immune mice during VV infection, and suggest that anti-TNF treatment might be a useful treatment for diseases, such as erythema nodosum and lupus-induced acute fatty necrosis in humans.

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