Global ETD Search

121	Papel da enzima indoleamina 2,3-dioxigenase (IDO) na imunossupressão induzida pela sepse / Role of enzyme Indoleamine 2, 3-dioxygenase (IDO) in the development of sepsis-induced immunosuppression Raphael Gomes Ferreira 26 October 2016 (has links) Em alguns casos, pacientes que sobreviveram a uma sepse grave podem desenvolver um quadro de imunossupressão, caracterizado pela expansão dos linfócitos T reguladores (Tregs). Porém, apesar de inúmeros avanços, os mecanismos associados à expansão das Tregs, ainda não estão completamente esclarecidos. Nesse sentido, trabalhos recentes demonstraram que a atividade da enzima Indoleamina 2,3-Dioxigenase (IDO), responsável pela formação da quinurenina a partir da degradação do aminoácido essencial triptofano, está relacionada à diferenciação das Tregs e com o desenvolvimento de um quadro de tolerância. Dessa forma, o objetivo deste estudo foi investigar o papel da IDO no desenvolvimento da imunossupressão induzida pela sepse. Os resultados demonstraram um aumento da expressão proteica e da atividade enzimática da IDO no baço de camundongos que sobreviveram à sepse grave. Para avaliar o desenvolvimento da imunossupressão, os camundongos foram desafiados com células do melanoma B16-F10. A inibição farmacológica da IDO promoveu redução do crescimento tumoral nos camundongos que sobreviveram à sepse, por um mecanismo dependente da redução na diferenciação das Tregs e das células C11b+ Ly6G+ no baço e da ativação de células CD8+ produtoras de IFN- ?, no linfonodo drenate da região tumoral. Adicionalmente, foi demonstrado que, o receptor de hidrocarbonetos de arila (AhR) está associado ao aumento da expressão da IDO, nos camundongos que sobreviveram à sepse. Ainda, os resultados demonstraram que células CD11C+ são as principais responsáveis por expressar a IDO no baço de camundongos que sobreviveram à sepse. Por fim, células CD11C+ isoladas do baço de camundongos que sobreviveram a sepse, foram mais efetivas em induzir a diferenciação das Tregs quando comparadas a células CD11C+ provenientes de camundongos naive. Em conjunto, os resultados sugerem que a ativação do AhR pela quinurenina é importante para expressão da IDO nas células CD11C+ encontradas no baço de camundongos que sobreviveram à sepse, o que por sua vez, está associado com a expansão das Tregs e com o desenvolvimento do quadro de imunossupressão. / Immunosuppression has been shown to be one long-term sequels of severe sepsis, which is mainly characterized by the expansion of regulatory T cells (Tregs). However, the mechanisms underlying Tregs expansion after sepsis remain poor understood. Indoleamine 2,3-dioxygenase (IDO), an enzyme that initiates the kynurenine pathway of tryptophan degradation, has been implicated in promoting Tregs generation. Therefore, we propose to investigate the role of IDO in the development of sepsis-induced immunosuppression. The results presented here demonstrated that there is an increase in both IDO protein expression and IDO enzymatic activity in spleen of sepsis-surviving mice. Employing a melanoma mouse model as a second challenge in sepsis-surviving mice, we found that pharmacological inhibition of IDO suppressed the enhanced tumor growth observed in sepsis-surviving mice. Importantly, inhibition of IDO decreased the expansion of Tregs in sepsis-surviving mice, leading to reduced CD11b+ Ly6G+ cells frequency in spleen and activation of INF-? production by CD8+ in draining lymph, after tumor challenge. Moreover, the results suggest that aryl hydrocarbon receptor (AhR) is associated with increased IDO expression found in sepsis-surviving mice. Furthermore, we identified that a CD11C+ population of cells are expressing IDO in spleen of sepsis surviving mice. In addition, CD11C+ cells isolated from spleen of sepsis-surviving mice, presented a higher capacity to induce a regulatory phenotype in naïve CD4+ CD25- T than CD11C+ isolated from naïve mice. Taken together, our results suggest that AhR activation by kynurenine during acute phase of sepsis is important to IDO expression in a specific CD11C+. This new sepsis-induced CD11C+ IDO+ population is important to Treg cells expansion and immunosuppression development in sepsis-surviving mice. AhR CD11C Células T reguladoras Imunossupressão Indoleamina 2,3- dioxigenase (IDO) Sepse AhR CD11C Regulatory T cells Sepsis
122	Papel das células TCD4+FoxP3+ (Treguladoras) na fase aguda da infecção murina pelo Trypanosoma cruzi. / Role of TCD4+Foxp3+ regulatory cells (T regulatory) in the early phase of murine infection with Trypanosoma cruzi. Bôas, Beatriz Villas 12 June 2017 (has links) As células TREGULADORAS tem como função central o controle da resposta imune ao próprio. Além disso, é descrito que essas células exercerem um papel moderador da resposta imune frente a micro-organismos patogênicos. No presente projeto, utilizamos o tratamento com toxina diftérica nos dias 1 e 2 pós-infecção (p.i.) em animais C57BL/6 FoxP3+DTReGFP+(DEREG) como abordagem alternativa para eliminar esta população de células reguladoras. Este tratamento mostrou-se altamente eficaz, embora temporário, uma vez que as TREG retornam aos valores normais no baço por volta do dia 8 p.i. Contudo, a ausência de TREG nesta janela temporal determina uma breve, mas significativa, redução na parasitemia e um aumento de IFN-γ, assim como uma redução da carga parasitária no coração em uma data posterior. Nosso estudo indica que as células TREGULADORAS desempenham um papel no controle da resposta imune frente aos parasitas no início da infecção pelo Trypanosoma cruzi, papel esse que podemos ver refletido na carga parasitária no coração na fase crônica da infecção. / The central function of TREGULATORY cells is the control of the immune response to their own. In addition, it is described that these cells exert a moderating role of the immune response against pathogenic microorganisms. In the present project, treatment with diphtheria toxin on days 1 and 2 post-infection (p.i.) in C57BL/6FoxP3+DTReGFP+ (DEREG) animals was used as an alternative approach to eliminate this population of regulatory cells. This treatment proved to be highly effective, although temporary, since the TREG return to normal values in the spleen by about 8 p.i. However, the absence of TREG in this time window results in a brief but significant reduction in parasitemia and an increase in IFN-γ as well as a reduction in parasitic load on the heart at a later date. Our study indicates that TREGULATORY cells play a role in controlling the immune response to parasites at the beginning of Trypanosoma cruzi infection, a role that can be seen reflected in parasite load in the heart in the chronic phase of infection. Trypanosoma cruzi Trypanosoma cruzi Acute phase Células T reguladoras Células TCD4+FoxP3+ Chagas disease DEREG mice Doença de Chagas Fase Aguda Regulação Regulatory T cells TCD4+FoxP3+ cells
123	Avaliação da expressão de receptores e ligantes Notch nas populações de linfócitos T em desenvolvimento, linfócitos T reguladores naturais e células dendríticas no timo humano / Evaluation of the expression of Notch receptors and ligands in developing lymphocytes, natural regulatory T cells and dendritic cells in human thymus Souza, Luciana Bento de 10 September 2012 (has links) O timo é o órgão linfóide primário responsável pela maturação dos linfócitos T onde se observam estruturas e células especializadas. A sinalização intra-tímica durante a maturação de linfócitos T não é bem esclarecida. Entre outras, a via de sinalização Notch, composta por receptores (Notch 1 a 4) e ligantes (DLL1, 3 e 4, Jagged 1 e 2), pode regular este processo. Neste trabalho temos como objetivo avaliar a expressão gênica e proteica de receptores e ligantes Notch nas diferentes fases de maturação de linfócitos T, linfócitos T reguladores naturais (nTreg) e células dendriticas tímicas (tDC). Para tanto, timos de 10 crianças submetidas à cirurgia cardíaca corretiva foram manipulados e as populações CD4-CD8-, CD4+CD8+, CD4+CD8-, CD4-CD8+, nTreg e tDC foram purificadas por citometria de fluxo. O RNA total foi isolado e os genes NOTCH1, 2 e 3, DLL1 e 4, JAG1 e 2, FOXP3 foram amplificados por RT-PCR. Alguns fragmentos de tecido foram avaliados por imunohistoquímica, quanto a expressão dos receptres Notch 1, 2, 3 e 4 e dos ligantes, DLL1 e 4, Jagged 1 e 2 em timócitos totais, células FOXP3+ e células S100+ em cada região tímica. Todos os genes de receptores e ligantes Notch foram expressos nas populações estudadas. Na população CD4-CD8- o gene NOTCH1 é mais expresso em comparação as outras populações de timócitos imaturos. Na população CD4+CD8+ o gene NOTCH2 é menos expresso, e o gene JAG2 mais expresso quando comparados à população CD4+CD8-. Os demais genes de receptores ligantes Notch são expressos de maneira similar entre as populações de timócitos. A avaliação relativa dos genes Notch nas populações de timócitos mostrou uma maior expressão do gene DLL1 na população CD4+CD8- e JAG1 na população CD4-CD8+ em comparação à CD4-CD8-. A expressão dos receptores e ligantes Notch no tecido mostrou ser homogênea entre as regiões. As nTreg expressam o gene do ligante JAG1 em maior nível entre os avaliados. A expressão gênica relativa das nTreg mostrou uma maior expressão de NOTCH1, NOTCH2, DLL4 e JAG1 e menor expressão de NOTCH3, DLL1 e JAG2 em relação as CD4-CD8-. Quando a relação utilizou a população CD4+CD8- observamos que as nTreg expressam mais os genes NOCTH1, NOCTH2, NOTCH3, DLL4 e JAG1, e em níveis similares DLL1 e JAG2. A avaliação histológica mostrou uma maior expressão de DLL4 em nTreg em comparação às demais proteínas avaliadas, e uma distribuição homogênea entre as regiões com exceção de Notch3 e Jagged2. As tDC mostraram uma maior expressão do gene JAG1 em comparação aos demais, e uma maior expressão da proteína DLL4. A expressão do receptor Notch2 em tDC difere entre as regiões tímicas. Em conjunto, nossos resultados mostraram que os receptores e ligantes Notch são expressos de forma gênica e proteica em todos os estágios de maturação de linfócitos T, nTreg e tDC do timo humano, com algumas variações quanto ao nível de expressão e distribuição no timo. Dados que se assemelham às avaliações murinas, porém com pontos a serem discutidos. Nossa inédita avaliação em nTreg propõem uma nova abordagem ao envolvimento da via Notch em sua maturação e a avaliação das tDCs sugere sua participação direta via Notch na maturação dos timócitos humanos / The thymus is a primary lymphoid organ responsible of maturing T lymphocytes, where specialized structures and cells are observed. The intrathymic signaling during lymphocytes maturation is unclear. Among them, Notch signaling pathway, which comprises in receptors (Notch1-4) and ligands (DLL1, 2 and 3, Jaaged1 and 2), may regulate this process. In this work our aim is to evaluate the expression of Notch receptors and ligands in different phases of T lymphocytes maturation, natural T regulatory cells (nTreg), and thymic dendritic cells (tDC). For this purpose, thymuses from 10 children who underwent corrective cardiac surgery were manipulated and populations CD4-CD8-, CD4+CD8+, CD4+CD8-, CD4- CD8+, nTreg and tDC were sorted by flow cytometry. Total RNA was purified and genes NOTCH1, 2 and 3, DLL1 and 4, JAG1 and 2, FOXP3 were amplified by RT-PCR. Some thymic fragments were evaluated by immunohistochemistry and screened for expression of Notch 1, 2, 3 and 4 receptors, DLL1 and 4, Jagged and e 2 ligands in total thymocytes, FOXP3+ cells and S100+ cells in each thymic region. All Notch receptors and ligands genes were expressed in studied populations. In CD4-CD8- subset NOTCH1 gene is more expressed in comparison to others immature thymocytes. In CD4+CD8+ subset NOTCH2 gene is less expressed, and JAG2 gene is more expressed when compared to CD4+CD8- population. The other receptors and ligands genes were expressed in a similar level among developing lymphocytes subsets. The relative Notch genes evaluation in developing lymphocytes populations showed a higher expression of DLL1 gene in CD4+CD8- population and JAG1 gene in CD4-CD8+ subset in comparison to CD4-CD8- thymocytes. The Notch receptors and ligands expression in thymic tissue showed to be homogeneous between thymic regions. The nTreg cells express JAG1 ligand gene in highest level among evaluated genes. The relative gene expression in nTreg presented higher expression of NOCTH1, NOTCH2, DLL4 and JAG1 genes, and low levels of NOTCH3, DLL1 and JAG2 related to CD4-CD8- subset. When relative gene expression were performed using CD4+CD8- subset, we observed that nTreg cells expressed more NOCTH1, NOCTH2, NOTCH3, DLL4 and JAG1, and in a similar level of expression DLL1 and JAG2 genes. The histological analysis showed that DLL4 was more expressed in nTreg cells in comparison to others proteins evaluated in this work, and a homogeneous distribution in thymic regions, in exception Notch3 and Jagged2. tDC cells presented higher expression of JAG1 gene among the others, and a higher expression of DLL4 protein. Notch2 expression in tDC was different between thymic regions. All together, our results showed that both genes and proteins of Notch receptors and ligands are expressed in distinct developmental stages of the maturation of T lymphocytes and nTreg cells and in the tDC cells in human thymus, with some variations in levels of expression and distribution in the thymus. These data are similar to the murine evaluations, but with some issues to be discussed. Our unpublished assessment in nTreg propose a new approach about the involvement of Notch pathway in its maturation and the evaluation of tDC suggests its direct participation of Notch signaling in the process of human thymocytes maturation Células dendríticas Dendritic cells Developing lymphocytes Linfócitos T reguladores Notch receptors Receptores Notch Regulatory T cells Thymus Timo
124	Papel da enzima indoleamina 2,3-dioxigenase (IDO) na imunossupressão induzida pela sepse / Role of enzyme Indoleamine 2, 3-dioxygenase (IDO) in the development of sepsis-induced immunosuppression Ferreira, Raphael Gomes 26 October 2016 (has links) Em alguns casos, pacientes que sobreviveram a uma sepse grave podem desenvolver um quadro de imunossupressão, caracterizado pela expansão dos linfócitos T reguladores (Tregs). Porém, apesar de inúmeros avanços, os mecanismos associados à expansão das Tregs, ainda não estão completamente esclarecidos. Nesse sentido, trabalhos recentes demonstraram que a atividade da enzima Indoleamina 2,3-Dioxigenase (IDO), responsável pela formação da quinurenina a partir da degradação do aminoácido essencial triptofano, está relacionada à diferenciação das Tregs e com o desenvolvimento de um quadro de tolerância. Dessa forma, o objetivo deste estudo foi investigar o papel da IDO no desenvolvimento da imunossupressão induzida pela sepse. Os resultados demonstraram um aumento da expressão proteica e da atividade enzimática da IDO no baço de camundongos que sobreviveram à sepse grave. Para avaliar o desenvolvimento da imunossupressão, os camundongos foram desafiados com células do melanoma B16-F10. A inibição farmacológica da IDO promoveu redução do crescimento tumoral nos camundongos que sobreviveram à sepse, por um mecanismo dependente da redução na diferenciação das Tregs e das células C11b+ Ly6G+ no baço e da ativação de células CD8+ produtoras de IFN- ?, no linfonodo drenate da região tumoral. Adicionalmente, foi demonstrado que, o receptor de hidrocarbonetos de arila (AhR) está associado ao aumento da expressão da IDO, nos camundongos que sobreviveram à sepse. Ainda, os resultados demonstraram que células CD11C+ são as principais responsáveis por expressar a IDO no baço de camundongos que sobreviveram à sepse. Por fim, células CD11C+ isoladas do baço de camundongos que sobreviveram a sepse, foram mais efetivas em induzir a diferenciação das Tregs quando comparadas a células CD11C+ provenientes de camundongos naive. Em conjunto, os resultados sugerem que a ativação do AhR pela quinurenina é importante para expressão da IDO nas células CD11C+ encontradas no baço de camundongos que sobreviveram à sepse, o que por sua vez, está associado com a expansão das Tregs e com o desenvolvimento do quadro de imunossupressão. / Immunosuppression has been shown to be one long-term sequels of severe sepsis, which is mainly characterized by the expansion of regulatory T cells (Tregs). However, the mechanisms underlying Tregs expansion after sepsis remain poor understood. Indoleamine 2,3-dioxygenase (IDO), an enzyme that initiates the kynurenine pathway of tryptophan degradation, has been implicated in promoting Tregs generation. Therefore, we propose to investigate the role of IDO in the development of sepsis-induced immunosuppression. The results presented here demonstrated that there is an increase in both IDO protein expression and IDO enzymatic activity in spleen of sepsis-surviving mice. Employing a melanoma mouse model as a second challenge in sepsis-surviving mice, we found that pharmacological inhibition of IDO suppressed the enhanced tumor growth observed in sepsis-surviving mice. Importantly, inhibition of IDO decreased the expansion of Tregs in sepsis-surviving mice, leading to reduced CD11b+ Ly6G+ cells frequency in spleen and activation of INF-? production by CD8+ in draining lymph, after tumor challenge. Moreover, the results suggest that aryl hydrocarbon receptor (AhR) is associated with increased IDO expression found in sepsis-surviving mice. Furthermore, we identified that a CD11C+ population of cells are expressing IDO in spleen of sepsis surviving mice. In addition, CD11C+ cells isolated from spleen of sepsis-surviving mice, presented a higher capacity to induce a regulatory phenotype in naïve CD4+ CD25- T than CD11C+ isolated from naïve mice. Taken together, our results suggest that AhR activation by kynurenine during acute phase of sepsis is important to IDO expression in a specific CD11C+. This new sepsis-induced CD11C+ IDO+ population is important to Treg cells expansion and immunosuppression development in sepsis-surviving mice. AhR AhR CD11C CD11C Células T reguladoras Imunossupressão Indoleamina 2,3- dioxigenase (IDO) Regulatory T cells Sepse Sepsis
125	Impact de l'inflammation intestinale sur la dynamique et la fonction des lymphocytes T régulateurs / Impact of intestinal inflammation on the dynamics and function of regulatory T cells Boschetti, Gilles 14 January 2016 (has links) Les maladies inflammatoires chroniques de l'intestin (MICI) sont caractérisées par une sécrétion exagérée de cytokines pro-inflammatoires, une hyperactivation des lymphocytes T effecteurs (Teff) et un contrôle insuffisant par les lymphocytes T régulateurs (Treg). Nous avons montré que le traitement par anti-TNFbetas'accompagne d'une augmentation significative des Treg Foxp3+ dans le sang de patients atteints de MICI en poussée. L'infliximab est associé à une potentialisation de leur fonction suppressive. Dans un 2ème travail nous montrons que les Treg sont incapables de prévenir la colite même s'il existe une augmentation du nombre de Treg dans les ganglions mésentériques ainsi qu'une majoration du nombre et de la fonction suppressive ex-vivo des Treg issus du colon inflammatoire. Cet impact fonctionnel positif sur les Treg issus des ganglions mésentériques était sélectif de la sous-population de Treg NRP1- correspondant aux Treg induits. La diminution significative aussi bien in vitro qu'in vivo de la conversion des LT naïfs en Treg en condition inflammatoire contribue probablement à leur incapacité à contenir la colite. Dans un 3ème travail, nous avons étudié la dynamique des LT Th1, Th17 et Treg et des sous-populations de LT CD4+ co-exprimants IL-17/IFNgamma, IL-17/Foxp3 et IFNgamma/Foxp3 chez des patients MICI en rémission clinique suivis tous les 3 mois. Une élévation des LT Foxp3/IL-17 du sang précédait la rechute de la maladie suggérant un rôle potentiel pathogénique de cette sous-population de LT. Ces éléments illustrent les concepts de conversion et plasticité des Treg au cours des MICI mais aussi leur rôle comme cible pour optimiser et développer de nouvelles biothérapies / Inflammatory bowel disease (IBD) are characterized by an excessive secretion of pro-inflammatory cytokines, hyperactivation of effector T cells (Teff) and insufficient control by regulatory T cells (Treg). We showed that treatment with anti-TNFbeta is accompanied by a significant increase in Foxp3+ Treg in the blood of patients with IBD. Infliximab is also associated with a potentiation of Treg suppressive function. In a second study, we showed that Treg are unable to completely prevent colitis, even as we have shown a significant increase in the number of Treg in the mesenteric lymph nodes and also an increase in number and the ex-vivo suppressive function of Treg cells from the inflammatory colon. The positive impact of intestinal inflammation on the suppressive function of Treg from the mesenteric lymph nodes was selective in the sub-population of Treg NRP1- majority representing iTreg. The significant decrease both in vitro and in vivo neo-conversion of LT to naïve Treg in inflammatory conditions, contributing to the inability of Treg to contain colitis. In a third study, we systematically studied the dynamics of LT Th1, Th17 and Treg as well as subpopulations of CD4+ T cells that co-express IL-17/IFNgamma, IL-17/Foxp3 and IFNgamma/Foxp3 from a cohort of IBD patients in clinical remission followed every 3 months. A rise in the blood of a Treg Foxp3+ mixed population producing IL-17 preceded the onset of a relapse of IBD suggesting a pathogenic potential of this subpopulation of LT. All these elements illustrate the concepts of conversion and plasticity of Treg in IBD but also the key role of Treg as a target to optimize and develop new biological therapies Lymphocytes T régulateurs Colite Anti- TNFα Néo-conversion Lnflammatory bowel diseases Regulatory T cells Colitis Anti-TNFα Neo-conversion 571.96
126	Zusammenhang zwischen der pränatalen Umgebung, regulatorischen T-Zellen im Nabelschnurblut und dem Allergierisiko in der frühen Kindheit Hinz, Denise 21 May 2013 (has links) (PDF) Regulatorische T-Zellen (Tregs) spielen eine entscheidende Rolle bei der Regulation atopischer Erkrankungen. Die Voraussetzungen für eine allergische Reaktionslage werden schon während der intrauterinen Entwicklung geschaffen. Über den Einfluss der intrauterinen Umgebung auf die Tregs zur Geburt ist bisher wenig bekannt. In der vorliegenden Arbeit sollte in der prospektiven Geburtskohorten-Studie LINA (Einfluss von Lebensstil und Umweltfaktoren auf das Allergierisiko Neugeborener) geklärt werden, inwiefern der Immunstatus der werdenden Mutter, eine atopische Familienanamnese sowie Umweltexpositionen während der Schwangerschaft den Immunstatus der Neugeborenen beeinflussen. Ein besonderer Schwerpunkt wurde dabei auf Tregs gelegt. Weiterhin sollte die Relevanz der Tregs zur Geburt für das Allergierisiko im ersten Lebensjahr des Kindes analysiert werden. Die Messung der Anzahl und Funktionalität der Tregs im Blut der werdenden Mutter in der 34. Schwangerschaftswoche und im Nabelschnurblut erfolgte sowohl durchflusszytometrisch in einer Subkohorte (n=24 Mutter-Kind Paare), als auch durch eine methylspezifische qPCR in der gesamten Kohorte der LINA-Studie (n=346 Mutter-Kind Paare). Die Ergebnisse dieser Arbeit deuten erstmals darauf hin, dass mütterliche Tregs möglicherweise einen regulatorischen Einfluss hinsichtlich der Programmierung des fötalen Immunsystems haben (Hinz et al., Clin Exp Allergy 2010). Die durchflusszytometrische Charakterisierung der Tregs der Mutter-Kind Paare zeigte beim Vergleich der Expression von CD4, CD25, CD127 und FOXP3, dass der Anteil der CD4+CD25high Tregs im Nabelschnurblut deutlich höher war, der Anteil FOXP3 positiver Zellen innerhalb der CD4+CD25high Tregs Population war zur Geburt jedoch signifikant geringer, verglichen mit den werdenden Müttern. Weiterhin war eine geringe Anzahl mütterlicher Tregs während der Schwangerschaft und eine erhöhte Produktion der TH2-Zytokine IL-4, IL-5 und IL-13 mit erhöhten Gesamt-IgE-Spiegeln im Nabelschnurblut verbunden (Hinz et al., 2010). Durch die Quantifizierung der Tregs auf Basis des TSDR-Methylierungsstatus` im FOXP3 Gen, einer spezifischen und zuverlässigen Methode zum Nachweis stabiler Tregs, konnte der Zusammenhang zwischen einer Vielzahl pränataler Faktoren, Tregs zur Geburt und dem Allergierisiko in der gesamten Geburtskohorte geklärt werden (Hinz et al., Allergy 2011). Das männliche Geschlecht des Kindes, die Atopie der Eltern, Rauchen und Desinfektionsmittel-Exposition während der Schwangerschaft sowie eine erhöhte mütterliche Produktion von IFN-γ, IL-13 und IL-17E war mit einer geringeren Treg-Anzahl im Nabelschnurblut assoziiert. Für Kinder mit einer geringeren Treg-Anzahl im Nabelschnurblut war das Risiko für eine atopische Dermatitis und einer Sensibilisierung gegen Nahrungsmittelallergene im ersten Lebensjahr signifikant höher (Hinz et al., 2011). Regulatorische T-Zellen Allergie Fötales Immunsystem Umweltfaktoren in der Schwangerschaft Regulatory T cells allergy fetal immune system environmental factors in pregnancy ddc:610
127	Regulation of Fas-deficient Lymphoproliferative Double Negative T Cells by Interferon Gamma and the Fc Receptor Gamma Chain Juvet, Stephen 20 March 2013 (has links) The Fas pathway is critical for the maintenance of normal T cell homeostasis. Humans and mice with defects in this pathway exhibit the accumulation of large numbers of peripheral lymphocytes and lupus-like autoimmunity. A major feature of these organisms is the accumulation of non-NK TCRαβ+CD4-CD8- “double negative” (DN) T cells. While regulatory T cells (Tregs) with the DN phenotype have been extensively characterized in Fas-sufficient mice and humans, limited data exist on the role of DN T cells as Tregs in Fas-deficient animals. In fact, most of the literature suggests that the DN T cells accumulating in Fas-deficiency states are pathogenic, contributing to secondary lymph node enlargement and autoimmune disease. In this body of work, data are presented that illustrate that Fas-deficient lymphoproliferative (LPR) DN T cells can act as Tregs in an interferon γ (IFNγ)- and Fas ligand (FasL)-dependent fashion toward Fas-sufficient T cells. LPR DN T cells needed to be able to secrete and respond to IFNγ in order to upregulate surface FasL, in order to ameliorate GVHD mediated by CD4+ T cells in vivo and to suppress the proliferation of and kill activated CD4+ T cells in vitro. FcRγ, a key molecule involved in innate immune responses, can substitute for CD3ζ in the T cell receptor (TCR) of mouse and human T cells in certain circumstances; in doing so, it is essential for the regulatory function of TCR transgenic DN Tregs. FcRγ-deficient LPR mice were found to have exacerbated T cell accumulation and early mortality. We show that while FcRγ expression was required for LPR DN T cells to regulate CD4+ and CD8+ T cells responding to alloantigens in vitro and in vivo, it does not control autologous lymphoproliferation in LPR mice by supporting the function of a regulatory cell, nor does it affect the rate of proliferation of LPR T cells in vivo. Instead, FcRγ-expressing LPR CD4+, CD8+ and DN T cells were found to be undergoing apoptosis at a high rate in vivo, and in contrast to their FcRγ-deficient counterparts, FcRγ+ LPR DN T cells were capable of undergoing TCR restimulation-induced cell death (RICD). The data presented in this thesis therefore show that LPR DN T cells can exhibit IFNγ-, FasL- and FcRγ-dependent regulatory function, and also illustrate a previously unknown function for FcRγ in controlling the expansion of Fas-deficient T cells. The implications of these data for autoimmune lymphoproliferative syndromes, and normal T cell homeostasis, are discussed. Fas Interferon gamma Fc receptor common gamma chain Autoimmune lymphoproliferative syndrome Graft-versus-host disease Regulatory T cells Double negative T cells 0982
128	The Role of Tumor Suppressors, SHIP and Rb, in Immune Suppressive Cells Collazo Ruiz, Michelle Marie 01 January 2012 (has links) Regulatory T cells (Tregs) and myeloid-derived suppressor cells (MDSC) have been extensively studied in the past 30-40 years. Their potent suppressive capacity shown in several pathological and clinical settings, such as cancer and transplantation, has made it evident that better understanding their development and function is critical. Specifically, Tregs play a pivotal role in preventing autoimmunity, graft-versus-host disease (GvHD), and organ graft rejection. We previously demonstrated that germline or induced SH2 domain-containing inositol 5-phosphatase (SHIP) deficiency in the host abrogates GvHD. Here we show that SHIP-deficiency promotes an increase of FoxP3+ cells in both the CD4+CD25+ and the CD4+CD25- T cell compartments with increased expression of Treg-associated markers. Importantly, SHIP-deficiency does not compromise Treg function. Interestingly, like conventional Tregs, SHIP-/- CD4+CD25- T cells are unresponsive to allogeneic stimulators and suppress allogeneic responses by T cells in vitro, and can mediate reduced lethal GvHD in vivo. Thus, SHIP limits the immunoregulatory capacity of CD4+ T cell, particularly in allogeneic settings. SHIP-deficiency expands the number of immunoregulatory cells in both the T lymphoid and myeloid lineages. Here, we examined if these increases are interrelated. Specifically, we found that myeloid specific SHIP-deficiency leads to expansion of both MDSC and Treg numbers. Conversely, T lineage specific ablation of SHIP leads to expansion of Treg numbers, but not expansion of MDSC, indicating an intrinsic role for SHIP in limiting Treg numbers. Interestingly, MDSC lack SHIP expression suggesting that another SHIP-deficient myeloid cell promotes MDSC and Treg expansion. Also, increased levels of G-CSF, a myelopoietic growth factor, in SHIP-/- mice may extrinsically promote MDSC expansion since we found that G-CSF is required for the expansion of splenic MDSC in mice with induced SHIP-deficiency. MDSC consist of two distinct subsets, granulocytic-MDSC (G-MDSC), and monocytic-MDSC (M-MDSC) that differ in morphology, phenotype, suppressive capacity and differentiation potential. Importantly, M-MDSC can further differentiate into dendritic cells, macrophages and preferentially into G-MDSC, in the presence of tumor-derived factors (TDF). The retinoblastoma gene (Rb1), a tumor suppressor gene and central regulator of the cell cycle and differentiation, has been shown to influence monocytic and neutrophilic lineage commitment and to limit myeloproliferative disease. Here, we examined the role of Rb1 in the biology of MDSC subsets in tumor-bearing mice. Firstly, M-MDSC expressed high levels of Rb1 which remained relatively stable in culture with GM-CSF. Conversely, freshly isolated G-MDSC initially expressed undetectable levels of Rb1 that increased over time in culture, which correlated with increased histone acetylation at the Rb1 promoter. This increased Rb1 expression and histone acetylation was accelerated by histone deacetylase inhibitors (HDACi) treatment, suggesting Rb1 expression may be controlled by histone modification. Furthermore, when treated with HDACi, M-MDSC did not differentiate into G-MDSC in culture, even with TDF present. Finally, induced Rb1 deficiency in vivo promoted an expansion of splenic CD11b+Ly6G+Ly6Clo cells, similar to G-MDSC in tumor-bearing mice. Although further studies are required, these results strongly suggest that Rb1, like SHIP, plays a role in MDSC accumulation, particularly G-MDSC in cancer. Allogeneic immune response Cancer granulocytic MDSC Myeloid-derived suppressor cells Regulatory T cells retinoblastma gene American Studies Arts and Humanities Cell Biology Immunology and Infectious Disease Molecular Biology
129	Rôle de la molécule CD47 dans l’homéostasie du système immunitaire Van, Vu Quang 02 1900 (has links) Les travaux antérieurs du laboratoire ont démontré le rôle du CD47 dans la fonction des cellules dendritiques ainsi que dans l’induction des lymphocytes T régulateurs (Tregs) chez l’humain in vitro. Notre premier objectif était de déterminer le rôle de CD47 sur la fonction des DCs in vivo. Nos travaux démontrent que le CD47 contrôle sélectivement la migration des DCs au travers des vaisseaux lymphatiques et des barrières cellulaires endothéliales in vivo sans interférer avec celle des lymphocytes T et B. Des expériences de migration compétitive et d’ immunisation active avec des DCs myéloïdes démontrent que la migration des DCs est dépendante de l’expression du CD47 sur les DCs et non sur les cellules endothéliales. Ce défaut de migration est corrélé avec l’absence de DCs spléniques dans la zone marginale chez nos souris CD47-/-. Notre second objectif était de déterminer le rôle de CD47 dans l’homéostasie et la fonction des Tregs. Nous démontrons que l’expression du CD47 contrôle sélectivement l’homéostasie d’une sous-population de Tregs CD103+ à l’état de base. La proportion de cellules activées/mémoires (CD44hi CD62Llo ) Foxp3+ CD103+ augmente rapidement au cours du vieillissement chez nos souris CD47-/- comparée aux souris CD47+/+ du même âge, tandis que le pourcentage de cellules (CD44loCD62Lhi) Foxp3+ CD103- reste comparable entre les deux souches de souris. En conclusion, le CD47 inhibe la prolifération excessive des Tregs CD103+ empêchant ainsi l’accumulation de ces cellules en absence d’inflammation. Les DCs et les Tregs sont étroitement régulées de manière reciproque. Cette régulation croisée contribue au maintien d’un équilibre entre l’immunité protectrice et la tolérance. La perspective de nos travaux est d’approfondir nos connaissances sur le rôle du CD47 et de ses ligands dans la régulation des DCs par les Tregs et vice et versa. Les DCs et les Tregs étant impliqués dans la pathogenèse de multiples maladies telles que le cancer, les maladies infectieuses et les maladies auto-immunes. Par conséquent, nos études pourraient ouvrir des portes à de nouvelles stratégies thérapeutiques. / Previous work in the laboratory have demonstrated the role of CD47 in the function of dendritic cells and in the induction of regulatory T cells in humans. Here, we show that the ubiquitous self-marker CD47 selectively regulates DC, but not T and B cell trafficking across lymphatic vessels and endothelial barriers in vivo. Competitive DC migration assays and active immunization with myeloid DCs demonstrate that CD47 expression is required on DCs but not on the endothelium and not vice and versa for efficient DC trafficking and T-cell responses. This migratory defect correlates with the quasi-disappearance of splenic marginal zone DCs in non manipulated CD47-deficient mice. Our data reveal that CD47 on DCs is a critical factor in controlling migration and efficient initiation of the immune response. Mutual or reciprocal regulation exists between DCs and Tregs. For instance, DCs efficiently induce Tregs in vivo. We here examine how CD47 deficiency that selectively decrease myeloid DCs impact on Treg homeostasis. We here show that CD47 expression, selectively regulated CD103+Foxp3+ Treg homeostasis. The proportion of effector/memory-like (CD44highCD62Llow) CD103+ Foxp3+ Tregs rapidly augmented with age in CD47-deficient mice (CD47-/-) as compared with age-matched control littermates. Yet, the percentage of quiescent (CD44lowCD62Lhigh) CD103-Foxp3+ Tregs remained stable. Thus, sustained CD47 expression throughout life is critical to avoid an excessive expansion of CD103+ Tregs that may overwhelmingly inhibit Ag specific T cell responses. DCs and Tregs are closely regulated to maintain the balance between protective immunity and tolerance. When that balance is broken, several diseases such as cancer, infectious diseases and autoimmune diseases may develop. Our ultimate goal is to understand how CD47 regulates DCs and Tregs function. Manipulation of the two cells types may open to the door to unexplored therapeutic avenues. Cellules dendritiques Migration Cellules T régulatrices CD47 CD103 Sirp-alpha Migration CD103 Sirp-alpha Dendritic cells CD47 Regulatory T cells
130	CD4+ FOXP3+ Regulatory T celles Homeostasis : role of interleukin-7 and implication in HIV infection pathophysiology Simonetta, Federico 07 December 2011 (has links) (PDF) Regulatory T cells (Treg) represent a crucial CD4 T cells subset involved in maintenance of immune-tolerance. Since their first description important efforts have been undertaken to better understand their biology, their development and their mechanisms of action. However, little is known about factors controlling Treg peripheral homeostasis. The aim of this thesis work was to better define mechanisms involved in governing Treg homeostasis and to investigate the eventual contribution of perturbation of Treg homeostasis in human disease. In the first part of this thesis work we tried to define in the murine system the role played by IL-7 in governing Treg homeostasis. We showed that Treg surface expression of CD127, the IL-7 receptor alpha chain, is finely regulated as it depends on their activation as well as on their tissue localization. More importantly, we demonstrated that Treg do express functional levels of CD127, identifying these cells as potential target of IL-7. Using both genetically modified murine models of altered IL-7 signaling and adoptive transfer models, we obtained definitive evidence for a direct role of IL-7 in governing Treg cell numbers. Finally, we demonstrated that IL-7 signaling in Treg optimizes their capacity to react to IL-2 an important cytokine regulating Treg homeostasis. In the second part of this work we investigated Treg homeostasis in the context of HIV infection. Employing for the first time in HIV infection a novel consensus Treg identification strategy and applying it to different groups of HIV infected patients, including primary infected patients and HIV controllers, we showed that HIV infection is characterized by an early and long lasting alteration of Treg homeostasis. In particular we demonstrated that effector rather than naive Treg are affected by HIV infection. Moreover, we showed that effector Treg numbers inversely correlated with HIV specific CD8 T cells responses, providing ex vivo evidence of Treg involvement in HIV immunity. Regulatory T cells Treg FOXP3 CD25 CD127 HIV AIDS Interleukin-7

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