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Modulation de l’effet suppresseur des cellules T régulatrices chez l’Homme en physiologie et au cours de l’infection par le VIH. / Modulation of suppressive functions of regulatory T cells in healthy subjects and during HIV infectionYounas, Mehwish 31 January 2013 (has links)
Les cellules T régulatrices (Treg) jouent un rôle important dans différentes infections chroniques comme le VIH. Lors de l’infection chronique par le VIH, une augmentation du nombre de ces cellules limite la réponse des cellules T effectrices spécifiques du virus mais permet également le contrôle de la très forte activation du système immunitaire. La régulation de l’activité suppressive des Treg constitue une voie importante pour le développement d’un vaccin, l’efficacité de la surveillance tumorale et l’auto-immunité. Dans ce travail, nous avons étudié différents mécanismes de régulation des Treg chez les patients infectés par le VIH et sujets sains. Le but de mon travail a été d’étudier les mécanismes impliqués dans les fonctions suppressives des Treg et de leur régulation. Nous nous sommes particulièrement intéressés au rôle de Notch sur la sensibilité des cellules T effectrices à la fonction suppressive des Treg, en montrant que l’activation de Notch rendait les cellules T effectrices plus sensibles à l’action suppressive des Treg, et ceci même en présence d’un très faible nombre de Treg. Nous avons démontré que certains ligands de Notch, tels que DL-4 et Jagged-1 mais non DL-1, régulent l’effet inhibiteur des Treg sur les cellules T effectrices par une surexpression de TGFβ-RII et à la phosphorylation de Smad3. Le rôle important de l’enzyme CD39 dans la fonction suppressive des Treg a été décrit, mais peu d’études ont démontré son rôle dans l’infection par le VIH. Nous avons montré que les Treg de patients infectés par le VIH experiment plus fortement le CD39, et que leur effet suppresseur était inhibé en utilisant un anticorps monoclonal anti-CD39 et maintenu en utilisant un agoniste de l’adénosine. Nous avons également montré que le polymorphisme du gène CD39, associé à une plus faible expression de CD39, était corrélé à une plus lente progression de la maladie. Nos résultats montrent non seulement les mécanismes impliqués dans l’activité suppressive des Treg lors de l’infection par le VIH, mais constituent une approche intéressante pour en modifier les fonctions. Enfin, nous avons recherché l’effet de l’IL-7 sur le phénotype des Treg et l’expression de molécules impliquées dans leur fonction suppressive. Nos résultats montrent deux effets synergique de l’IL-7 sur les Treg mémoires: diminution de l’expression de CD39 à leur surface induisant une diminution de leur fonction suppressive, et surexpression du récepteur à l’ATP induisant un phénotype Th17. L’administration d’IL-7 in vivo chez des patients infectés par le VIH a confirmé la modification de phénotype des Treg en Th17 et notamment une surexpression du facteur de transcription spécifique des Th17, RORγt. En conclusion, notre travail apporte de nouvelles connaissances sur les mécanismes impliqués dans les fonctions inhibitrices des Treg et comment moduler ces fonctions. Ceci pourrait avoir un impact clinique direct, soit dans le traitement de maladies associées à un dysfonctionnement des Treg (infections chroniques virales, sclérose multiple, diabète de type 1, arthrite rhumatoide et lupus érythémateux), soit dans les stratégies vaccinales. / T regulatory cells (Treg cells) play an important role during various chronic infections like HIV. Increase in Treg cell number during chronic phase limit the HIV specific T effector cell response but may control exaggerated activation of the immune system. Modulation of regulatory T cell (Treg cells) suppression has important implications for vaccine development, the effectiveness of tumor surveillance, and the emergence of autoimmunity. Here we studied various mechanisms of Treg cells modulation in HIV+ patients and healthy subjects. The aim of my work was to decipher some aspects of the mechanisms involved in Treg cell mediated suppressive effects and the modulation of Treg cell suppressive effects in healthy subjects and HIV- infected patients.We have extended knowledge on the role of Notch in Treg/Effectors T cells cross talk. Here we focused our interest on the role of Notch pathway on the sensitivity of effectors T cells to Treg cell-mediated suppression, showing that Notch activation may significantly increase the sensitivity of effector cells to Treg cells even at a low ratio. We demonstrated that Notch ligands DL-4 and Jagged-1, but not DL-1 modulate significantly the suppressive effect of Treg cells on effectors T cells through an up regulation of TGF-RII expression and the phosphorylated form of Smad3 protein.A critical role of CD39 has been described for Treg cells in general but only a few studies have analyzed its role in HIV infection. We showed an increase in CD39 expression on Treg cells in a cohort of HIV- infected patients. Treg cells inhibitory effects were relieved by CD39 down modulation using an antiCD39 monoclonal antibody and this suppressive effect was reproduced on effector CD8+ T cells by an adenosine agonist. We found that CD39 gene polymorphism associated with a lower CD39 expression correlated with slower progression to AIDS. Our results shows not only the mechanism by which Treg cell suppression occurs during HIV infection but also provide an attractive approach to modify Treg cell functions.Finally, we have investigated the role of IL-7 on the phenotype of Treg cells and expression of molecules involved in the suppressive functions of these cells. Our results show that IL-7 exerts two synergistic effects on memory Treg cells. It decreases their suppressive effect by decreasing CD39 expression and increases ATP receptor leading to a switch towards a Th17 phenotype. In vivo administration of IL-7 tipped the balance towards a higher expression of RORγT in PBMCs from HIV infected patients.In conclusion our study bring new findings in the mechanisms involved in Treg cell mediated suppression and the way to modulate these cells which could have direct clinical impact either in the treatment of diseases associated with Treg cell dysregulation (chronic viral infections, autoimmune disorders like multiple sclerosis, type 1 diabetes, rheumatoid arthritis, and systemic lupus erthematosus) or during vaccination.
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Análise do envolvimento do receptor de quimiocinas - CCR5 - na migração de células T reguladoras: correlação com o desenvolvimento de carcinoma espinocelularOliveira, Carine Ervolino de 07 June 2013 (has links)
Apesar dos avanços sobre a efetiva participação das células T reguladoras (Treg) na resposta imune antitumoral, ainda existem vários pontos que precisam ser esclarecidos. Visto que, os fatores que controlam a migração destas células para o microambiente tumoral ainda não estão totalmente definidos, o esclarecimento dos mecanismos de migração de células Treg no contexto do câncer poderia fornecer novos alvos para o desenvolvimento de terapias mais específicas. Diversos modelos de estudo demonstraram que o recrutamento preferencial de células Treg ao invés de outros tipos de células T pode ser explicado pela expressão diferencial de receptores de quimiocinas como o CCR5. Assim, é de extrema importância estabelecer qual é o papel de CCR5 na migração de células Treg em tumores induzidos quimicamente e seu envolvimento no desenvolvimento tumoral. Baseado no exposto, o presente estudo analisou o envolvimento de CCR5 na migração de células Treg e a sua correlação com o desenvolvimento de carcinoma espinocelular (CEC) induzido quimicamente. Os resultados obtidos demonstraram que camundongos geneticamente deficentes de CCR5 (CCR5KO) apresentaram baixo número de células Treg nas lesões e foram menos suscetíveis ao desenvolvimento de carcinoma espinocelular. Na fase de progressão tumoral verificou-se o desenvolvimento de CEC in situ por animais CCR5KO em combinação com a maior infiltração leucocitária, enquanto camundongos do grupo controle (WTCEC) apresentaram lesões de CEC bem diferenciado associado à elevada frequência de células Treg no microambiente tumoral e menor infiltração leucocitária. Interessantemente, a transferência adotiva de células Treg CCR5+ para animais CCR5KO (CCR5CEC Treg) resultou no acúmulo destas células no microambiente tumoral, elevado nível de CCL4, CCL17 e CCL22, e aumento da suscetibilidade desses animais à carcinogênese química. Verificou-se o desenvolvimento de CEC indiferenciado por animais CCR5CEC Treg e este foi associado à elevada frequência de macrófagos, células mielóides e dendríticas, linfócitos CD19+, T CD4+, T CD8+ e células Treg na fase de progressão tumoral. Outro aspecto relevante de nosso estudo foi à observação de que a transferência adotiva de células T CD4+CD25-CCR5+ para animais CCR5KO (CCR5CEC CD4+) induziu o desenvolvimento de CEC moderadamente diferenciado com características intermediárias as lesões observadas em animais WTCEC e CCR5CEC Treg. A transferência adotiva de células T CD8+CCR5+ para animais CCR5KO (CCR5CEC CD8+) promoveu o aparecimento precoce de papilomas e inibiu a progressão de papilomas para o CEC. A menor suscetibilidade à carcinogênese química de animais CCR5CEC CD8+ foi associada ao alto número de macrófagos, células mielóides, linfócitos B e T CD8+, células NK detectado nas lesões destes animais. Dessa forma, os resultados descritos estabelecem que a quimiotaxia de células Treg para o microambiente tumoral é dependente de CCR5 e estas células regulam aspectos críticos desta doença, sugerindo que o bloqueio da migração de células Treg CCR5+ seria uma importante estratégia imunoterapêutica no combate deste tipo de câncer. / Considering the advances on the effective participation of regulatory T cells (Treg) in the antitumor immune response, there are still several points that need to be clarified. The mechanisms that control the Treg cells migration to the tumor microenvironment are not completely defined, for these reason, establish these mechanisms could provide new targets for the development of more specific therapies. Several study models have demonstrated that preferential recruitment of Treg cells rather than other types of T cells can be explained by the differential expression of chemokine receptors such as CCR5. Thus, the present study examined the involvement of CCR5 in the migration of Treg cells and their correlation with the development of squamous cell carcinoma (SCC) chemically induced. The results showed that CCR5 knockout mice (CCR5KO) showed a low number of Treg cells in the lesions and these animals were less susceptible to the development of squamous cell carcinoma. SCC in situ was developed in CCR5KO mice and associated with high leukocytes infiltration, whereas the development SCC well differentiated in the control group (WTSCC) was associated with a high number of Treg cells and lower leukocyte infiltration in the tumor microenvironment. Interestingly, adoptive transfer of CCR5+Treg cells to CCR5KO mice (CCR5SCC Treg) resulted in the accumulation of these cells, high levels of CCL4, CCL17 and CCL22 in the tumor microenvironment and increased susceptibility to chemical carcinogenesis. CCR5SCCTreg mice developed SCC undifferentiated associated with a higher incidence of macrophages, myeloid and dendritic cells, CD19+, CD4+ T, CD8+ T lymphocytes, and Treg cells in the stage of tumor progression. Another relevant aspect of our study was the observation that adoptive transfer of CD4+CD25-CCR5+ T cells to CCR5KO animals (CCR5SCC CD4+) induced the development of SCC moderately differentiated with intermediate features observed in the WTSCC and CCR5SCC Treg mice. The adoptive transfer of CD8+CCR5+ T cells to CCR5KO mice (CCR5SCC CD8+) promoted the early incidence of papillomas and inhibited the progression to SCC. Reduced susceptibility to skin carcinogenesis in CCR5SCC CD8+ mice was associated with high frequency of macrophages, myeloid cells, B lymphocytes, CD8+ T lymphocyte and NK cells. In this study we showed that the migration of Treg cells to the tumor microenvironment is CCR5 dependent and that it regulates critical aspects of tumor development. The development of drugs that blocks CCR5+ Treg cells migration could be an important immunotherapeutic strategy to control this type of cancer.
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Análise do envolvimento de células T reguladoras na hanseníaseLima, Hayana Ramos 16 October 2012 (has links)
A hanseníase é uma doença crônica causada por Mycobacterium leprae e apresenta diversas formas clínicas. O entendimento da interação parasita-hospedeiro na hanseníase evidenciou que ocorre a persistência assintomática do patógeno, caracterizando um estado de latência. Os fatores mais importantes relacionados com a permanência do patógeno são: a patogenicidade do agente infeccioso e o perfil da resposta imune, no qual os eventos de migração celular, produção de citocinas, as células efetoras e reguladoras são extremamente relevantes. As células T reguladoras (Treg) desempenham papel central na regulação da resposta imune em infecções crônicas o que favorece a persistência do patógeno. A importância de células T reguladores na hanseníase ainda é pouco conhecida. Neste trabalho investigou-se a presença de células T reguladoras em lesões e sangue periférico de indivíduos com hanseníase. Inicialmente avaliou-se a proliferação e a produção de citocinas por células mononucleares do sangue periférico (PBMC) de pacientes com hanseníase. Os resultados evidenciaram que não há diferenças quanto à proliferação de células T e produção de IFN-γ e TNF-α por células desses pacientes, mas a produção de IL-4 e IL-5 foi detectada apenas entre os pacientes com hanseníase virchoviana. Em relação à presença de células T reguladoras, os resultados evidenciaram aumento no número de linfócitos T CD4+CD25+FoxP3+ no sangue periférico de pacientes com hanseníase virchoviana. As células T reguladoras dos pacientes com hanseníase apresentaram elevada expressão de moléculas co-inibitórias PD-1, CTLA-4, GITR e ICOS. De modo relevante, as células T CD4+CD25+ isolados de pacientes com hanseníase virchoviana apresentaram maior atividade supressora quando comparado às células isoladas de pacientes com hanseníase tuberculóide. As células T CD4+CD25+ de pacientes com hanseníase virchoviana inibiram a proliferação de PBMC alogênico e a produção de IFN-γ e TNF-α. Os resultados demonstraram também que nas amostras de lesão de pele de pacientes com hanseníase virchoviana há acúmulo de células CD25+ produtoras de IL-10 e TGF-β, enquanto que estas células não foram detectadas nas lesões de pacientes com hanseníase tuberculóide. Dessa forma, os resultados descritos indicam que pacientes com hanseníase virchoviana apresentam aumento no número de células T reguladoras circulantes e no infiltrado inflamatório, e estas células apresentaram maior atividade supressora. O acúmulo de células T reguladoras no sítio da infecção pode ser correlacionado com o controle da resposta imune e conseqüente persistência de M. leprae. / Leprosy is caused by Mycobacterium leprae and its clinical features depend on the host immune background. The understanding of parasite-host interactions in leprosy have highlighted asymptomatic persistence of the pathogen, which indicates that this infection becomes latent. The most important factors related to the permanence of pathogens are: the pathogenicity of the infectious agents; the profile of the immune response developed by the host whose events of cellular migration, cytokines production, and the effector and regulatory cells are extremely relevant. The regulatory T cells (Treg) seem to play a central role in the regulation of the immune response in chronic infections, which favors the persistence of the pathogen. Herein, we analyzed the relation between tuberculoid and lepromatous leprosy with the presence and function of T regulatory cells from peripheral blood mononuclear cells (PBMC) and skin lesions from these patients. First, the proliferation and cytokine production of PBMC isolated from leprosy patients were analyzed. We did not observe any difference in the proliferation ability or IFN-γ and TNF-α release; however, the production of IL-4 and IL-5 was detected only in patients with lepromatous leprosy. Furthermore, T CD4+CD25+FoxP3+ cells were detected in the PBMC of patients with leprosy and these cells from lepromatous patients showed high expression of co-inhibitory molecules such as PD-1, GITR, CTLA-4 and ICOS. T CD4+CD25+cells isolated from patients with lepromatous leprosy were significantly more suppressive than the cells obtained from tuberculoid patients. In addition, TCD4+CD25+ cells isolated from patients with lepromatous leprosy inhibited allogeneic PBMC proliferation and their production of IFN-γ and TNF-α. The results also demonstrated that IL- 10 and TGF-ß were co-expressed with CD25+ cells at the inflammatory infiltrate of skin lesions from lepromatous patients, but similar results were not detected among tuberculoid patients. Thus, these results indicate that lepromatous leprosy patients have an enhanced presence of Treg cells with a suppressive ability in the blood and in the inflammatory infiltrate. The accumulation of Treg cells at the infection sites might be associated to the control of immune response and consequently to Mycobacterium leprae presistence.
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Análise do envolvimento do receptor de quimiocinas - CCR5 - na migração de células T reguladoras: correlação com o desenvolvimento de carcinoma espinocelularCarine Ervolino de Oliveira 07 June 2013 (has links)
Apesar dos avanços sobre a efetiva participação das células T reguladoras (Treg) na resposta imune antitumoral, ainda existem vários pontos que precisam ser esclarecidos. Visto que, os fatores que controlam a migração destas células para o microambiente tumoral ainda não estão totalmente definidos, o esclarecimento dos mecanismos de migração de células Treg no contexto do câncer poderia fornecer novos alvos para o desenvolvimento de terapias mais específicas. Diversos modelos de estudo demonstraram que o recrutamento preferencial de células Treg ao invés de outros tipos de células T pode ser explicado pela expressão diferencial de receptores de quimiocinas como o CCR5. Assim, é de extrema importância estabelecer qual é o papel de CCR5 na migração de células Treg em tumores induzidos quimicamente e seu envolvimento no desenvolvimento tumoral. Baseado no exposto, o presente estudo analisou o envolvimento de CCR5 na migração de células Treg e a sua correlação com o desenvolvimento de carcinoma espinocelular (CEC) induzido quimicamente. Os resultados obtidos demonstraram que camundongos geneticamente deficentes de CCR5 (CCR5KO) apresentaram baixo número de células Treg nas lesões e foram menos suscetíveis ao desenvolvimento de carcinoma espinocelular. Na fase de progressão tumoral verificou-se o desenvolvimento de CEC in situ por animais CCR5KO em combinação com a maior infiltração leucocitária, enquanto camundongos do grupo controle (WTCEC) apresentaram lesões de CEC bem diferenciado associado à elevada frequência de células Treg no microambiente tumoral e menor infiltração leucocitária. Interessantemente, a transferência adotiva de células Treg CCR5+ para animais CCR5KO (CCR5CEC Treg) resultou no acúmulo destas células no microambiente tumoral, elevado nível de CCL4, CCL17 e CCL22, e aumento da suscetibilidade desses animais à carcinogênese química. Verificou-se o desenvolvimento de CEC indiferenciado por animais CCR5CEC Treg e este foi associado à elevada frequência de macrófagos, células mielóides e dendríticas, linfócitos CD19+, T CD4+, T CD8+ e células Treg na fase de progressão tumoral. Outro aspecto relevante de nosso estudo foi à observação de que a transferência adotiva de células T CD4+CD25-CCR5+ para animais CCR5KO (CCR5CEC CD4+) induziu o desenvolvimento de CEC moderadamente diferenciado com características intermediárias as lesões observadas em animais WTCEC e CCR5CEC Treg. A transferência adotiva de células T CD8+CCR5+ para animais CCR5KO (CCR5CEC CD8+) promoveu o aparecimento precoce de papilomas e inibiu a progressão de papilomas para o CEC. A menor suscetibilidade à carcinogênese química de animais CCR5CEC CD8+ foi associada ao alto número de macrófagos, células mielóides, linfócitos B e T CD8+, células NK detectado nas lesões destes animais. Dessa forma, os resultados descritos estabelecem que a quimiotaxia de células Treg para o microambiente tumoral é dependente de CCR5 e estas células regulam aspectos críticos desta doença, sugerindo que o bloqueio da migração de células Treg CCR5+ seria uma importante estratégia imunoterapêutica no combate deste tipo de câncer. / Considering the advances on the effective participation of regulatory T cells (Treg) in the antitumor immune response, there are still several points that need to be clarified. The mechanisms that control the Treg cells migration to the tumor microenvironment are not completely defined, for these reason, establish these mechanisms could provide new targets for the development of more specific therapies. Several study models have demonstrated that preferential recruitment of Treg cells rather than other types of T cells can be explained by the differential expression of chemokine receptors such as CCR5. Thus, the present study examined the involvement of CCR5 in the migration of Treg cells and their correlation with the development of squamous cell carcinoma (SCC) chemically induced. The results showed that CCR5 knockout mice (CCR5KO) showed a low number of Treg cells in the lesions and these animals were less susceptible to the development of squamous cell carcinoma. SCC in situ was developed in CCR5KO mice and associated with high leukocytes infiltration, whereas the development SCC well differentiated in the control group (WTSCC) was associated with a high number of Treg cells and lower leukocyte infiltration in the tumor microenvironment. Interestingly, adoptive transfer of CCR5+Treg cells to CCR5KO mice (CCR5SCC Treg) resulted in the accumulation of these cells, high levels of CCL4, CCL17 and CCL22 in the tumor microenvironment and increased susceptibility to chemical carcinogenesis. CCR5SCCTreg mice developed SCC undifferentiated associated with a higher incidence of macrophages, myeloid and dendritic cells, CD19+, CD4+ T, CD8+ T lymphocytes, and Treg cells in the stage of tumor progression. Another relevant aspect of our study was the observation that adoptive transfer of CD4+CD25-CCR5+ T cells to CCR5KO animals (CCR5SCC CD4+) induced the development of SCC moderately differentiated with intermediate features observed in the WTSCC and CCR5SCC Treg mice. The adoptive transfer of CD8+CCR5+ T cells to CCR5KO mice (CCR5SCC CD8+) promoted the early incidence of papillomas and inhibited the progression to SCC. Reduced susceptibility to skin carcinogenesis in CCR5SCC CD8+ mice was associated with high frequency of macrophages, myeloid cells, B lymphocytes, CD8+ T lymphocyte and NK cells. In this study we showed that the migration of Treg cells to the tumor microenvironment is CCR5 dependent and that it regulates critical aspects of tumor development. The development of drugs that blocks CCR5+ Treg cells migration could be an important immunotherapeutic strategy to control this type of cancer.
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Immunomodulation during human pregnancy : placental exosomes as vehicles of immune suppression.Stenqvist, Ann-Christin January 2014 (has links)
The mammalian pregnancy comprises a challenge to the maternal immune system since the fetus is semi-allogeneic and could thus be rejected. Pregnancy success is associated with the placenta that is not only essential for oxygen supply, nourishment and pregnancy hormones but also plays a role in the protection of the fetus against maternal immunologic attack. The aim of the current studies was to elucidate the role of human placenta as an immunomodulatory organ with a special focus on placental exosomes as vehicles for establishment of maternal tolerance to the fetus. We discovered that the syncytiotrophoblast in human normal pregnancy constitutively produces and secretes exosomes. Exosomes are 30-100 nanometer-sized membrane vesicles of endosomal origin that convey intercellular communication. Exosomes are produced and released through the endosomal compartment and reflect the type and the activation state of the cells that produce and secrete them. They carry cytosolic and membrane-bound proteins and nucleic acids and can influence and re-program recipient cells. Depending on their interactions with cells of the immune system they can be divided into immunostimulatory or immunosuppressive. We developed methods for isolation and culture of trophoblast and placental explants from human normal first trimester pregnancy and isolated exosomes from the culture supernatants. These exosomes were characterized biochemically and functionally regarding mechanisms with potential importance in the establishment of maternal tolerance towards the fetus. The following aspects were studied: 1) exosomal modulation of the NKG2D receptor-ligand system, a major cytotoxic pathway for NK- and cytotoxic T cells and thus potentially dangerous to the fetus; 2) placental exosome-mediated apoptosis of activated immune effector cells; and 3) Foxp3-expressing T regulatory cells in human pregnant uterine mucosa, the decidua. Using immuno electron microscopy we show that human early syncytiotrophoblast constitutively expresses the stress-inducible NKG2D ligands MICA/B and ULBP1-5, and the apoptosis inducing molecules FasL and TRAIL. While MICA/B were expressed both on the cell surface and intracellularly on the limiting membrane of multivesicular bodies (MVB) and on exosomes, the ULBP1-5, FasL and TRAIL were solely processed through the MVB of the endosomal compartment and secreted on exosomes. The NKG2D ligand-expressing placental exosomes were able to internalize the cognate receptor from the cell surface of activated NK- and T cells thus down regulating their cytotoxic function. In our studies of apoptosis we found that placental exosomes carry the proapoptotic ligands FasL and TRAIL in their active form as a hexameric complex of two homotrimeric molecules, required for triggering of the apoptotic signaling pathways. This finding was supported by the ability of isolated placental FasL/TRAIL expressing exosomes to induce apoptosis in activated peripheral blood mononuclear cells (PBMC) and Jurkat T cells. Additionally, we studied Foxp3-expressing T regulatory (Treg) cells in paired human decidual and blood samples from pregnant women compared to non-pregnant controls. The CD4+CD25+Foxp3+ Treg cells were 10 fold enriched in the decidual mucosa compared to peripheral blood of pregnant women and non-pregnant controls. We discovered a pool of Foxp3-expressing, CD4+CD25- cells in human decidua, a phenotype consistent with naïve/precursor Foxp3+ Treg cells. These results suggest local enrichment of Treg cells in decidua of normal pregnancy. Furthermore, we have results indicating that the exosomes, isolated from placental explant cultures, carry PD-L1 and TGFβ on their surface, molecules known to promote induction of Treg cells. Taken together, our results provide evidence that placental exosomes are immunosuppressive and underline their role in the maternal immune modulation during pregnancy. The constitutive production and secretion of immunosuppressive placental exosomes create a protective exosomal gradient in the blood surrounding the feto-placental unit. This “cloud of immunosuppressive exosomes” conveys immunologic privilege to the developing fetus and thus contributes to the solution of the immunological challenge of mammalian pregnancy.
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Análise do envolvimento de células T reguladoras na hanseníaseHayana Ramos Lima 16 October 2012 (has links)
A hanseníase é uma doença crônica causada por Mycobacterium leprae e apresenta diversas formas clínicas. O entendimento da interação parasita-hospedeiro na hanseníase evidenciou que ocorre a persistência assintomática do patógeno, caracterizando um estado de latência. Os fatores mais importantes relacionados com a permanência do patógeno são: a patogenicidade do agente infeccioso e o perfil da resposta imune, no qual os eventos de migração celular, produção de citocinas, as células efetoras e reguladoras são extremamente relevantes. As células T reguladoras (Treg) desempenham papel central na regulação da resposta imune em infecções crônicas o que favorece a persistência do patógeno. A importância de células T reguladores na hanseníase ainda é pouco conhecida. Neste trabalho investigou-se a presença de células T reguladoras em lesões e sangue periférico de indivíduos com hanseníase. Inicialmente avaliou-se a proliferação e a produção de citocinas por células mononucleares do sangue periférico (PBMC) de pacientes com hanseníase. Os resultados evidenciaram que não há diferenças quanto à proliferação de células T e produção de IFN-γ e TNF-α por células desses pacientes, mas a produção de IL-4 e IL-5 foi detectada apenas entre os pacientes com hanseníase virchoviana. Em relação à presença de células T reguladoras, os resultados evidenciaram aumento no número de linfócitos T CD4+CD25+FoxP3+ no sangue periférico de pacientes com hanseníase virchoviana. As células T reguladoras dos pacientes com hanseníase apresentaram elevada expressão de moléculas co-inibitórias PD-1, CTLA-4, GITR e ICOS. De modo relevante, as células T CD4+CD25+ isolados de pacientes com hanseníase virchoviana apresentaram maior atividade supressora quando comparado às células isoladas de pacientes com hanseníase tuberculóide. As células T CD4+CD25+ de pacientes com hanseníase virchoviana inibiram a proliferação de PBMC alogênico e a produção de IFN-γ e TNF-α. Os resultados demonstraram também que nas amostras de lesão de pele de pacientes com hanseníase virchoviana há acúmulo de células CD25+ produtoras de IL-10 e TGF-β, enquanto que estas células não foram detectadas nas lesões de pacientes com hanseníase tuberculóide. Dessa forma, os resultados descritos indicam que pacientes com hanseníase virchoviana apresentam aumento no número de células T reguladoras circulantes e no infiltrado inflamatório, e estas células apresentaram maior atividade supressora. O acúmulo de células T reguladoras no sítio da infecção pode ser correlacionado com o controle da resposta imune e conseqüente persistência de M. leprae. / Leprosy is caused by Mycobacterium leprae and its clinical features depend on the host immune background. The understanding of parasite-host interactions in leprosy have highlighted asymptomatic persistence of the pathogen, which indicates that this infection becomes latent. The most important factors related to the permanence of pathogens are: the pathogenicity of the infectious agents; the profile of the immune response developed by the host whose events of cellular migration, cytokines production, and the effector and regulatory cells are extremely relevant. The regulatory T cells (Treg) seem to play a central role in the regulation of the immune response in chronic infections, which favors the persistence of the pathogen. Herein, we analyzed the relation between tuberculoid and lepromatous leprosy with the presence and function of T regulatory cells from peripheral blood mononuclear cells (PBMC) and skin lesions from these patients. First, the proliferation and cytokine production of PBMC isolated from leprosy patients were analyzed. We did not observe any difference in the proliferation ability or IFN-γ and TNF-α release; however, the production of IL-4 and IL-5 was detected only in patients with lepromatous leprosy. Furthermore, T CD4+CD25+FoxP3+ cells were detected in the PBMC of patients with leprosy and these cells from lepromatous patients showed high expression of co-inhibitory molecules such as PD-1, GITR, CTLA-4 and ICOS. T CD4+CD25+cells isolated from patients with lepromatous leprosy were significantly more suppressive than the cells obtained from tuberculoid patients. In addition, TCD4+CD25+ cells isolated from patients with lepromatous leprosy inhibited allogeneic PBMC proliferation and their production of IFN-γ and TNF-α. The results also demonstrated that IL- 10 and TGF-ß were co-expressed with CD25+ cells at the inflammatory infiltrate of skin lesions from lepromatous patients, but similar results were not detected among tuberculoid patients. Thus, these results indicate that lepromatous leprosy patients have an enhanced presence of Treg cells with a suppressive ability in the blood and in the inflammatory infiltrate. The accumulation of Treg cells at the infection sites might be associated to the control of immune response and consequently to Mycobacterium leprae presistence.
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Primary Melanoma tumor immune contexture analysis: T regulatory cell to T effector cell ratio as related to MHC class II and GILT expressionCole, Lauren 28 April 2017 (has links)
A Thesis submitted to The University of Arizona College of Medicine - Phoenix in partial fulfillment of the requirements for the Degree of Doctor of Medicine. / Histopathologic examination of the tumor microenvironment demonstrates the presence of a vast repertoire of infiltrating lymphocytes and antigen presenting cells (APC’s). Recent studies establish a strong correlation between the tumor microenvironment cell composition and prognostic value in terms of cell type, location and ratio, referred to as a tumor’s immunoscore. More specifically, the relationship between T regulatory (Treg) cell to T effector (Teff) cell percentage predominates as a mechanism of tumor immune evasion. Further investigation of the factors influencing the development of Treg and Teff cells is therefore warranted. Gammainterferon‐inducible lysosomal thiol reductase (GILT) acts to influence antigenic processing and presentation by MHC class II cells, ultimately impacting lymphocyte development. Evaluation of the role of GILT expression in MHC class II+ APC’s with respect to Treg and Teff cell development in primary melanoma lesions, to our knowledge, has not been reported. Therefore our investigation focuses on elucidating a plausible relationship between GILT presence and Treg to Teff cell ratio. The aim of our study is to examine a possible association between GILT expression in APC’s and Treg:Teff cell ratio. We hypothesized GILT expression in melanoma cells would result in a decreased Treg to Teff ratio or an enhanced T cell‐mediated response. Our study included 17 de‐identified primary melanoma specimens previously stained and scored for Treg, Teff, CD8, MHC class II and GILT. Scoring was performed through identification of four areas per specimen with highest Treg and Teff cell density. These four areas were then averaged with ± standard deviation (SD). With use of landmark association, these four areas were identified and scored for MHC class II and GILT in APC’s and tumor cells with consideration to presence/absence, intensity and frequency of staining. Statistical significance was not reached relative to our hypothesized relationship of a decreased Treg to Teff cell ratio in the presence of GILT+ MHC class II. Similarly, we did not reach statistical significance when comparing individual cell types to GILT, MHC class II and GILT + MHC class. In our study, we were unable reach statistical significance relative to our proposed correlation between MHC class II and GILT presence leading to a decreased Treg to Teff cell ratio or enhanced T‐cell mediated immune response. A major limitation of our study included the small sample size leading to a probable type II error, prompting the need for further investigation of the factors influencing the Treg to Teff cell ratio within the melanoma tumor microenvironment on a larger scale.
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Étude de la réponse immunitaire au traitement antirétroviral au cours de l'infection par le virus de l'immunodéficience humaine / Immune response to antiretroviral therapy during HIV infectionSaison, Julien 07 September 2015 (has links)
Plus de 30 ans après la découverte du virus de l'immunodéficience humaine (VIH), entre 20 et 30% des patients sous trithérapie anti rétrovirale (TARV) ne récupèrent pas un taux normal de lymphocytes (LT) CD4, ce qui est associé à une plus grande morbi-mortalité. Il existe de nombreux résultats discordants dans la littérature concernant le rôle joué par l'activation immunitaire des LT CD4 et CD8, ainsi que des incertitudes sur celui des LT régulateurs (Treg), dans cette non réponse immunologique (NRI). Dans le but de clarifier les liens entre NRI, activation immunitaire et Treg, nous avons formulé deux hypothèses : (i) il existe un lien entre le pourcentage de Treg, l'activation immune des LT CD4 et/ou LT CD8, et NRI; et (ii) le pourcentage de Treg mesuré à l'introduction de la TARV est utilisable en tant que marqueur indépendant de risque de NRI à la TARV. Afin de tester nos hypothèses, nous avons dans un premier temps amélioré le phénotypage des Treg en pratique quotidienne, d'abord en comparant différents phénotypes de Treg, puis en validant dans des échantillons cliniques une nouvelle méthode de marquage de FoxP3 intracellulaire en un temps. Puis nous avons analysé dans une étude transversale les liens entre NRI, activation immune, différentes sous populations de Treg et la détection d'une virémie résiduelle, au sein d'une population de patients infectés par le VIH-1, en succès virologique sous TARV depuis de nombreuses années. Les facteurs prédictifs associée à la NRI ont été analysés au moyen d'une analyse multivariée. Nous avons parallèlement étudié au moyen d'une étude prospective le rôle pronostic de la mesure du pourcentage de Treg à l'introduction de la TARV, sur la réponse immune en LT CD4 dans les 2 ans suivant le début du traitement. Nous avons montré que la NRI après 7 ans de TARV en moyenne était associée de façon indépendante au nadir de LT CD4 et au pourcentage de Treg. Nous avons retrouvé une augmentation significative de l'activation immune des LT CD4 en cas de NRI, mais pas des LT CD8. Enfin, nous avons montré que le pourcentage de Treg était, avec le nadir de LT CD4, un facteur prédictif de NRI dans les 2 ans suivant le début de la TARV, et que son impact sur la réponse immune était d'autant plus marqué que le nadir de CD4 était bas. La mesure du pourcentage de Treg à l'introduction de la TARV pourrait être un outil simple et facilement utilisable en routine pour mieux cibler les patients à risque de NRI, en association avec la mesure du nadir des LT CD4. Un suivi de la cohorte permettra de confirmer ces résultats à plus long terme. D'autres études devront être conduites, en se focalisant sur les patients avec un nadir de LT CD4 bas, ainsi que chez des patients plus âgés, afin d'explorer les interactions entre immunosénescence, activation immune et Treg / More than 30 years after the discovery of HIV, between 20 and 30% of patients on highly active antiretroviral therapy (ART) do not recover normal levels of CD4 T lymphocytes (CD4). This immunological non response (INR) to ART is associated with an increased morbidity and mortality. There are many conflicting results in the literature related the role of T cells immune activation of T regulator cells (Treg), in INR. In order to clarify the links between INR, immune activation and Treg, we made two hypotheses: (i) there is a link between Treg’s percentage, immune activation of CD4 and / or CD8, and INR; and (ii) the percentage of Treg measured at ART introduction can be used as an independent predictor for INR. To test our hypotheses, we initially improved the immunophenotyping of Treg in daily practice, by comparing different Treg’s phenotype, and by validating in clinical samples a new « one step» staining method of intracellular FoxP3. Then we analyzed in a crosssectionnal study the links between INR, immune activation, different Treg’s subpopulations and detection of very low level viremia, in a population of HIV-1 infected patients, under suppressive ART for many years. Predictive factors associated with the INR were analyzed using multivariate analysis. Simultaneously, we performed a prospective study to analyse the prognostic role of Treg’s percentage at ART introduction on the CD4 reconstitution within 2 years. We have shown that INR after 7 years of ART was independently associated with CD4 nadir and Treg’s percentage. We found in INR patients a significant increase of CD4 immune activation, but not of CD8. Finally, we showed that the Treg’s percentage and the CD4 nadir were independant predictors of INR within 2 years from the start of ART. The effect of Treg at baseline on CD4 evolution was as lower as the CD4 nadir was higher. Measuring the percentage of Treg at ART introduction could be a simple and easy tool to use in daily routine. It could help to better target patients at risk of INR in association with the measurement of CD4 nadir. A follow-up of the cohort will confirm these results in the long term. Further studies will be conducted, focusing on patients with a low CD4 nadir, and on older patients, in order to explore the interactions between immunosenescence, immune activation and Treg
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Etude des lymphocytes T régulateurs naturels CD8+CD25+: signature micro-ARN et effets des micro-ARNs sur l'expression de FOXP3, CTLA-4 et GARP / Studying microRNA signature in human Tregs and the effect of microRNAs on Treg associated genesJebbawi, Fadi 12 March 2014 (has links)
Mon travail de thèse a consisté à caractériser une sous-population de lymphocytes T régulateurs naturels de phénotype CD8+CD25+.<p>Nous avons purifié les CD8+CD25+ nTregs et vérifié par cytométrie de flux leur expression en FOXP3 et CTLA-4. Puis nous avons pu montrer que ces cellules possèdent des propriétés suppressives dans un test d’inhibition de la prolifération de lymphocytes T activés allogéniquement. Les lymphocytes CD8+CD25+ nTregs expriment les gènes FOXP3, CTLA-4, GARP et CCL-4 et les cytokines IL-10 et TGF-β. Par contre, les gènes CD28, ICOS, FOXO1 et Helios sont sous-exprimés dans les nTregs CD8+CD25+ par rapport aux lymphocytes T CD8+CD25-. <p>Nous avons établi une signature micro-ARN qui comprend 10 micro-ARNs différentiellement exprimés :7 micro-ARNs sous-exprimés "miR-9, -24, -31, -155, -210, -335 et -449 " et 3 micro-ARNs surexprimés " miR-214, -205 et -509". De plus, nous avons pu explorer la relevance biologique de cette signature micro-ARN en montrant dans un premier temps que les miRs "-31, -24, -210, -335" ciblent spécifiquement la région 3'UTR de FOXP3, de même les miR-9 et miR-155 ciblent la région 3'UTR de CTLA-4, et les miR-24, et -335 ciblent la région 3'UTR de GARP. Ceci a été fait par des expériences de co-transfections suivies d'une mesure de l'activité rapportrice luciférase. De plus, nous avons pu démontrer par des expériences de transduction lentivirale ex vivo, de cellules T primaires, que des micro-ARNs de la signature régulent l’expression de FOXP3, CTLA-4 et GARP dans les Tregs naturels CD8+CD25+ humains. <p>Cette étude montre l'importance des micro-ARNs dans la régulation post-transcriptionnelle des gènes impliqués dans la fonction régulatrice des lymphocytes T régulateurs.<p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
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L'initiation précoce du traitement antirétroviral conserve la fonction immunitaire dans l'intestin de patients infectés par le VIH / Early initiation of combined antiretroviral therapy preserves immune function in the gut of HIV infected patientsKök, Ayrin 22 July 2014 (has links)
L'infection par le (virus de l'immunodéficience humaine) VIH est caractérisée par une déplétion sévère et massive, précoce des T CD4+ dans l'intestin. Les mécanismes à l'origine de cette déplétion sont imparfaitement connus, mais la conséquence de cette atteinte muqueuse est une activation chronique du système immunitaire liée à la translocation microbienne. Surtout, cette atteinte semble irréversible malgré le contrôle efficace de la réplication virale à long terme.La translocation microbienne, causée par l'infection à VIH, établit une activation immunitaire chronique dans l'intestin, et cela a un impact grave sur la reconstitution des cellules T CD4 + et de leurs fonctions. Cependant, on ne sait pas si les dommages de la muqueuse intestinale peuvent être restaurés à un niveau normal grâce à l'intervention thérapeutique, et les facteurs déterminants qui influenceront T CD4 + restauration cellulaire n'ont pas été identifiés.En induisant une défense de la muqueuse contre les agents pathogènes microbiens dans l'intestine et le maintien de l'intégrité intestinale de l'épithélium, les cellules Th17+T CD4 + nouvellement caractérisé orchestrent l'immunité muqueuse. Une perte de cellules Th17 a été observée dans infections par le VIH et l'immunodéficience simien virale (SIV) et conduit à une défense immunitaire altérée contre les agents pathogènes microbiens entrants et, en conséquence, la diffusion systémique des agents pathogènes.Dans cette étude, j'ai cherché à mieux comprendre les déterminants de la restauration de la muqueuse intestinale afin de répondre à la question si leur fonction peut être restaurée au cours de traitement antirétroviral (combined antiretroviral therapy, cART) tôt initié.Analyse phénotypique et l'expression des gènes ont été effectués à partir de l'intestin de patients naïfs infectés par le VIH ou les patients initiés au traitement de cART soit à la phase précoce de l'infection primaire, ou plus tard au cours de la phase chronique. Ces données démontrent une diminution de la muqueuse Th22 et IL-17 cellules produisant chez les patients naïfs. Ces populations, à l'exception des cellules Th22, n'ont pas été restaurées sous cART. Le rapport Treg/Th17 a été significativement augmentée chez les patients infectés par le VIH et a été inversement corrélée avec la restauration des cellules T CD4 +, mais pas avec des niveaux d'ADN du VIH dans l'intestin. Les analyses d'expression génique profilage de la muqueuse intestinale distingué deux groupes de patients, qui a coïncidé avec le moment de l'initiation du cART. La majorité de début traitée, mais pas les patients traités plus tard a montré une structure conservée intestinale lymphoïde, l'intégrité de la barrière épithéliale et dendritiques voies de maturation cellulaire. Dans l'ensemble, ces résultats démontrent que l'initiation précoce d'antirétroviraux contribue à préserver et / ou restaurer l'homéostasie lymphoïde de la muqueuse intestinale et donc fournir une justification pour lancer cART au cours de la phase aiguë de l'infection par le VIH. / Human Immunodeficiency Viral (HIV) infection leads to a severe and massive CD4+T cell depletion in the gut associated lymphoid tissue (GALT) very early during the course of viral infection. This depletion, which is not reflected in peripheral blood, persists despite the initiation of combined antiretroviral therapy (cART). The loss of lamina propria CD4+T cells, changes in the lymphatic architecture and altered intestinal epithelial barrier leading to microbial translocation are the common features of HIV-1 infection and are not fully restored under cART.Microbial translocation, caused by HIV infection, establishes a chronic immune activation, and this has a severe impact on the reconstitution of CD4+T cells and their functions. However, it is not known whether gut mucosal damage can be restored to normal levels through therapeutic intervention, and the determining factors that would influence CD4+T cell restoration have not been identified.By inducing a mucosal defense against microbial pathogens in GALT and maintaining the gut epithelial integrity, newly characterized Th17 CD4+T cells orchestrate the mucosal immunity. A loss of Th17CD4+T cells has been observed in HIV and Simian Immune Deficiency Viral (SIV) infections and leads to an impaired immune defense against incoming microbial pathogens and, as a consequence, systemic dissemination of pathogens.In this study, we analyzed parameters of gut mucosal restoration in order to answer the question if their function can be restored during early initiated cART.Phenotypic and gene expression analyses have been performed from the gut of HIV-infected naïve patients or patients treated for several years. We analyzed 2 groups of treated patients, one initiated cART treatment at the early phase of the primary infection, the second during the chronic phase. These data demonstrate a depletion of mucosal Th22 and IL-17 producing cells in naive patients. These populations, except Th22 cells, were not restored under cART. The Treg/Th17 ratio was significantly increased in HIV infected patients and was inversely correlated with the restoration of CD4+T cells, but not with HIV DNA levels in the gut. Gene expression profiling analyses of gut mucosal distinguished two groups of patients, which coincided with the timing of cART initiation. The majority of early treated, but not later treated patients exhibited a conserved intestinal lymphoid structure, epithelial barrier integrity and dendritic cell maturation pathways. Overall, these results demonstrate that early initiation of cART helps to preserve and/or restore lymphoid gut mucosal homeostasis and thus provide a rationale for initiating cART during the acute phase of HIV infection.
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