Global ETD Search

61	Etude de la réponse immunitaire T au cours de l'artérite à cellules géantes (Maladie de Horton) / Study of the T-cell immune response in giant cell arteritis Samson, Maxime 23 October 2014 (has links) Ce travail de thèse a été axé sur l’étude de la réponse immunitaire T chez des patients atteints d’artérite à cellules géantes (ACG) et de pseudo-polyarthrite rhizomélique (PPR). Plusieurs études cliniques successives interrégionales ont permis d’inclure de nombreux patients (57 ACG et 27 PPR) des Centres Hospitaliers (CH) Universitaires et des CH de l’interrégion Est. Les échantillons sanguins ont été étudiés dans le laboratoire de l’unité INSERM U1098. Tout d’abord, nous avons confirmé l’implication des lymphocytes Th17 dans la pathogénie de l’ACG et avons montré pour la première fois leur implication au cours de la PPR. De plus, notre étude des lymphocytes T (LT) CD4+CD161+ a permis de mieux comprendre les mécanismes de plasticité entre les réponses Th1 et Th17 au cours de ces deux pathologies. Nous avons complété ces travaux par l’étude de la réponse T régulatrice en montrant qu’il existe un déficit quantitatif en Treg au cours de l’ACG et la PPR. Dans la suite de ce travail, nous avons mis en évidence, chez des patients atteints de polyarthrite rhumatoïde, que le blocage de la voie de signalisation de l’IL-6 par un anticorps monoclonal dirigé contre le récepteur de l’IL-6 permet de corriger le déséquilibre de la balance Th17/Treg, en diminuant la réponse Th17 et en augmentant simultanément la réponse T régulatrice, à l’inverse des corticoïdes qui diminuent le pourcentage de Th17 sans corriger le déficit en Treg. Enfin, dans la dernière partie de ce travail, nous avons montré pour la première fois que les LT CD8+ étaient également impliqués dans la pathogénie de l’ACG et la PPR. Ces résultats ont permis de progresser dans les connaissances physiopathologiques de l’ACG et la PPR en évoluant d’un modèle articulé autour d’un déséquilibre de la balance Th1/Th2 vers celui d’un déséquilibre de la balance Th17/Treg et permettent de proposer des thérapeutiques mieux ciblées pour l’ACG et la PPR. / The aim of this thesis was to investigate the T-cell immune response in the course of giant-cell arteritis (GCA) and polymyalgia rheumatica (PMR). Several studies conducted by our team allowed us to obtain blood samples from many patients affected by GCA (n=57) and PMR (n=28). Immunological studies were performed in INSERM U1098, University Of Burgundy, Dijon, France. We firstly demonstrated the implication of Th17 and CD4+CD161+ T cells in the pathogenesis of these two diseases, thus extending the knowledge in the plasticity mechanisms arising between Th1 and Th17 cell-immune responses in GCA and PMR. Furthermore, we investigated the regulatory T cell immune response in these two affections, demonstrating that although being functional, the percentage of circulating Treg was decreased in GCA and PMR patients. As interleukin-6 (IL-6) had been shown to control the Th17/Treg balance, we studied Th17 and Treg frequencies in rheumatoid arthritis patients treated with an anti-IL-6 receptor antibody (tocilizumab). We showed that the blockade of the IL-6 pathway was able to correct the Th17/Treg imbalance by decreasing the number of Th17 cells and simultaneously increasing that of Treg. Finally, we demonstrated for the first time the implication of CD8+ T cells in the pathogenesis of GCA and PMR. This thesis allowed us to progress in the knowledge of the pathogenesis of GCA making the pathogenesis model progress from a Th1/Th2 to a Th17/Treg imbalance model. Altogether, these data deciphering the immune response in the pathogenesis of GCA and PMR bring new knowledge which will lead to better targeted therapies. Artérite à cellules géantes Lymphocytes Th17 Lymphocytes T régulateurs Lymphocytes T CD8 Interleukine-6 Giant-cell arteritis 571.9 616.1
62	ZIP13, un nouveau régulateur de l’activation, la différenciation et la formation de la mémoire des cellules T CD8+ Panès, Rébecca 03 1900 (has links) La reconnaissance du peptide lié au complexe majeur d’histocompatibilité (pCMH) par les cellules T CD8+ et leur récepteur spécifique (TCR) est une étape cruciale dans l’établissement d’une réponse immunitaire protectrice adéquate et de longue durée. L’engagement du TCR engendre une cascade d’évènements de signalisation qui contrôle la prolifération, la différenciation et les fonctions effectrices des lymphocytes T CD8+ (LT8). Différentes études suggèrent un rôle crucial du zinc dans la biologie des LT8, particulièrement l’observation d’un influx de zinc suivant l’engagement du TCR. De plus, la multitude de transporteurs contrôlant homéostasie du zinc au sein des LT8, couplé aux multiples rôles de cet ion dans les processus cellulaires nous a amené à concentrer notre recherche sur le rôle du zinc dans les cellules T CD8+, qui à ce jour n’est que peu décrit. ZIP13, un des 14 transporteurs contrôlant l’homéostasie du zinc chez les LT8 murins, régule l’activation, la prolifération et la différenciation de ces cellules. En effet, une diminution de l’expression de ZIP13 (ZIP13-KD) en utilisant un petit ARN en épingle à cheveux (shRNA) entraîne une activation précoce exacerbée des LT8 se traduisant par une plus grande prolifération. Ceci a été démontré in vitro dans des lignées d’hybridomes CD8+, mais également chez les LT8 primaires murins (OT-I). De plus, cette hyperactivation est suivie par une perte substantielle des cellules, démontrant un rôle pour ZIP13 de régulateur positif de la survie des cellules T CD8+. L’étude d’une modulation de l’expression de ZIP13 chez les cellules primaires OT-I in vivo dans un modèle d’infection aiguë à Listeria monocytogenes souligne des rôles additionnels de ce gène dans la différenciation des populations effectrices des LT8. Les LT8 ZIP13-KD montrent un biais de différenciation vers la population de cellules effectrices précoces (EEC) au détriment des autres populations effectrices, ainsi qu’une diminution de Ly6C dans les organes lymphoïdes secondaires (SLO). Au site de l’infection, les cellules ZIP13-KD sont enrichies en précurseur de cellules T CD8+ résidentes mémoires (pré-Trm). ZIP13 joue également un rôle dans la formation de la mémoire immunologique puisque les cellules ZIP13-KD ne forment pas de cellules T CD8+ centrales mémoires (Tcm) dans les ganglions lymphatiques. Ces observations sont, corrélées avec une diminution drastique du marqueur de surface CD62L. Ceci se traduit par des cellules OT-I ZIP13-KD formant une mémoire immunologique uniquement composée LT8 effecteurs mémoires (Tem) et de LT8 résidents mémoires (Trm). Finalement, des analyses transcriptomiques des OT-I ZIP13-KD au stade effecteur de la réponse à une infection à Lm-OVA identifient des signatures de gènes associées aux LT8 épuisés et aux cellules Tc17. Nos résultats soulignent l’importance d’une régulation stricte et précise de l’homéostasie du zinc dans les cellules T CD8+ par des transporteurs spécifiques pour une réponse immunitaire adéquate. ZIP13 est le premier transporteur étudié dans le contexte d’une infection aiguë et identifié comme crucial pour la différenciation des populations effectrices ainsi que la formation de la mémoire immunitaire, ajoutant de l’importance à la régulation du zinc dans la biologie des LT8. Une connaissance précise de l’homéostasie spatiotemporelle du zinc dans les LT8 identifierait de nouveaux mécanismes de régulation de ces cellules qui pourrait mener potentiellement au développement de nouveaux outils pour des immunothérapies à base de cellules T génétiquement modifiées. / CD8+ T cell activation via the recognition of peptide-loaded major histocompatibility complex (pMHC) by the T cell receptor (TCR) is crucial for the establishment of a long lasting and protective immune response. TCR triggering induces a cascade of signaling events controlling T cell effector function and differentiation. The multitude of genes controlling zinc homeostasis in T cells, and the observation of an influx of zinc following TCR activation point towards a link between the regulation of zinc homeostasis and CD8+ T cell biology. This growing body of evidence led us to focus our research on zinc homeostasis in T cells, which remains poorly understood. With this study, we have shown that ZIP13, one of the many transporters controlling zinc homeostasis, significantly regulates T cell activation and differentiation following activation. Knockdown (KD) of ZIP13 by shRNA led to a substantial increase in early activation, both in murine CD8+ T cell lines and primary mouse OT-I cells in vitro. Subsequently, this increase in T cell activation is followed by a massive loss of these cells days after activation, highlighting an addition role for ZIP13 in T cell survival. Study of ZIP13 in primary CD8+ T cells in an in vivo acute infection model of Listeria monocytogenes highlights new roles of ZIP13 in the control of effector T cell differentiation. ZIP13-KD in CD8+ T cells alter the normal effector cell differentiation pattern; favoring the early effector cells (EEC) subset and induces a decrease in the surface marker Ly6C in secondary lymphoid organs. At the site of infection, ZIP13-KD CD8+ T cells are enriched in resident memory T cells precursor (pre-Trm). ZIP13 has also an impact on memory T cell formation, since ZIP13-KD cells are lacking the central memory population (Tcm), through the drastic decrease of the surface marker CD62L. This results in ZIP13-KD cells at the memory stage that are mostly composed of effector memory (Tem) and resident memory (Trm) cells. Finally, transcriptomic analyses of WT CD8+ T cells and ZIP13-KD CD8+ T cells at the effector stage demonstrates ZIP13’s role in driving an exhausted T cell and Tc17 cell gene expression signature. Taken together, our results point to the importance of a strict and fine-tuned regulation of zinc homeostasis in T cells through specific zinc transporters for an effective immune response. ZIP13 is the first zinc transporter reported as essential for T cell differentiation and memory formation, adding weight to the importance of zinc regulation in CD8+ immune responses. Having a clear picture of zinc homeostasis in CD8+ T cells would reveal new mechanisms regulating the activity of these cells that could potentially lead to the development of new tools for T cell-based immunotherapy. Zinc ZIP13 Cellules T CD8+ EEC Effecteur Mémoire Ly6C CD8+ T cells effector memory Immunology / Immunologie (UMI : 0982)
63	Nociceptor neurons control cancer immunosuveillance Ahmadi, Maryam 10 1900 (has links) Les interactions neuro-immunitaires entre les systèmes sensoriels et immunitaires ont été abondamment étudiées; cependant, leur rôle dans la régulation des cancers est encore mal connu. Les interactions croisées entre les cytokines, les facteurs de croissance et les neuropeptides peuvent promouvoir la progression des tumeurs. Les neuropeptides libérés par les nocicepteurs peuvent affecter la polarisation, la chimiotaxie et l'activité du système immunitaire acquis. Étant donné que les neurones sensoriels libèrent localement des neuropeptides qui modulent l'activité des lymphocytes, nous faisons l'hypothèse que les nocicepteurs sécrètent des neuropeptides qui induisent l'épuisement des cellules T CD8 et la croissance tumorale. L’épuisement des lymphocytes T CD8 est un phénomène observé dans le cadre d’infections chroniques et de cancers. Elle est définie comme une perte de la fonction effectrice des lymphocytes T CD8 (diminution de la production d'IFN-γ, de TNF-α et d'IL-2) ainsi qu'une expression élevée de récepteurs inhibiteurs tels que PD-1 (protéine 1 de mort cellulaire programmée), LAG-3 (gène 3 d'activation des lymphocytes) et TIM-3 (protéine 3 d'immunoglobuline des lymphocytes T et de contenant du domaine mucine). Nous avons utilisé le modèle murin de mélanome pour tester cette hypothèse et avons observé que les cellules malignes de cancer de la peau B16F10 interagissent avec les nocicepteurs pour promouvoir la croissance des neurites, la sensibilité aux ligands activateurs et la libération de neuropeptides. En conséquence, le peptide lié au gène de la calcitonine (CGRP), qui est libéré par les nocicepteurs, augmente directement l'épuisement des cellules T CD8 et réduit leur capacité à éliminer les cellules du mélanome. L'ablation génétique des neurones sensoriels, leur inhibition pharmacologique ou le blocage du récepteur au CGRP (RAMP1) suffisent à limiter l'épuisement des lymphocytes infiltrés dans la tumeur et la croissance tumorale. De plus, l'injection de CGRP recombinant dans des souris dépourvues de neurones sensoriels réduit l'épuisement des cellules T CD8. Les cellules T CD8 RAMP1-/- montrent aussi moins d'épuisement que leurs homologues sauvages lorsqu'elles sont co-transplantées dans des souris immunodéficientes Rag1-/- portant une tumeur. En résumé, réduire la libération de CGRP en bloquant localement les nocicepteurs associés à la tumeur limite les effets immunomodulateurs de CGRP sur les cellules T cytotoxiques CD8 et représente une stratégie d'intérêt pour protéger l'immunité antitumorale. / Neuroimmune crosstalk between the nervous and the immune systems has been widely studied; however, their modulating roles are largely unknown in cancer. Bilateral interactions of cytokines, growth factors and neuropeptides may support tumor progression. Nociceptor-released neuropeptides can affect polarization, chemotaxis and adaptive immune system activity. Since sensory neurons locally release neuropeptides that modulate the activities of lymphocytes, we hypothesized that nociceptors might secrete neuropeptides leading to CD8+ T-cell exhaustion and tumor growth. CD8 T cell exhaustion is a phenomenon observed in the context of chronic infections and cancer. It is defined as loss of effector function of CD8 T cells (decreasing the production of IFN-γ, TNF-α, and IL-2) as well as high expression of inhibitory receptors such as PD-1 (programmed cell death protein 1), LAG-3 (lymphocyte-activation gene 3), and TIM-3 (T-cell immunoglobulin and mucin domain-containing protein 3). We used the mouse model of melanoma cancer to test this hypothesis and found that malignant B16F10 skin cancer cells interacted with nociceptors to expand neurite outgrowth, responsiveness to noxious ligands, and neuropeptide release. Consecutively, neuropeptide calcitonin gene-related peptide (CGRP), which is released by nociceptors, directly increased the exhaustion of cytotoxic CD8+ T cells and reduced their ability to eliminate melanoma cells. Genetic ablation of sensory neurons, local pharmacological silencing, and antagonism of the CGRP receptor (RAMP1) were all able to limit the exhaustion of tumor-infiltrating lymphocytes (TIL) and tumor growth. Moreover, treatment with recombinant CGRP in sensory neuron- depleted mice reduced the exhaustion of CD8+ T cells. Compared with wild-type cells, RAMP1-/- CD8+ T cells were rescued to go under exhaustion when co-transplanted into tumor-bearing Rag1-/- deficient mice. In summary, reducing CGRP release by local silencing of tumor-associated nociceptors, limits the immunomodulatory effects of CGRP on cytotoxic CD8+ T cells and represents an ideal strategy to protect anti-tumor immunity. Nociceptor neurons T cell exhaustion CGRP RAMP1 Neurones sensoriels Épuisement des cellules T CD8 Immunology / Immunologie (UMI : 0982)
64	Cytokine priming enables triggering of naive auto-reactive CD8[superscript +]T cells by weak agonist ligands of the TCR Dubois, Stéphanie January 2010 (has links) Résumé : L'activation des lymphocytes T CD8+ naïfs par un antigène nécessite deux signaux. Le premier signal est médié par le récepteur des cellules T (TCR) à la suite de son interaction avec le complexe majeur d'histocompatibilite (CMH) de classe I. Le deuxième signal est délivré par l'interaction des molécules de co-stimulation avec leur récepteur spécifique retrouvé sur les cellules présentatrices d'antigène professionnelles. Toutefois en réponse à la pression homéostatique, comme dans le cas de la lymphopénie, les lymphocytes T naïfs sont soumis à une prolifération sans stimulation antigénique par un processus appelé «prolifération induite par la lymphopénie (LIP)». LIP des lymphocytes T CD8+ naïfs nécessite IL-7, et un peptide du soi présenté pas le CMH de classe I. Des travaux récents de notre laboratoire ont montré que les cytokines homéostatiques IL-7 et IL-15 peuvent agir en synergie avec IL-21 et induire une prolifération antigène-indépendante des cellules CD8+ naives. Cette activation "sensibilise" les cellules à proliférer en réponse à une concentration sub-optimale de l'antigène spécifique au TCR. Également les cellules pré-stimulées avec des cytokines produisent davantage de cytokines effectrices telles que le TNFa et l'IFNy; et possèdent un potentiel plus élevé de cytotoxicity après stimulation avec un antigène spécifique. Dans mon projet de maitrise, j'ai étudié la possibilité que la pré-stimulation par les cytokines pouvait être un mécanisme important par lequel des cellules T CD8+ naïves qui sont potentiellement autoréactives soient stimulées pour provoquer une maladie auto-immune telle que le diabète de type 1. J'ai démontré cela en utilisant un modèle de souris transgéniques. Ces souris produisent des cellules T CD8+ qui expriment le TCR transgénique P14 (cellules PI4) , lesquelles reconnaissent un peptide antigénique dérivé de l'antigène glycoprotein (GP33) du virus de la chorioméningite lymphocytaire (LCMV). Nous avons montré qu'une pré-stimulation avec PIL-21 en présence de l'IL-7 ou l'IL-15, les cellules P14 acquièrent la capacité de répondre vigoureusement à des ligands peptidiques modifiés qui montrent une faible activité agoniste envers les cellules P14 naives. Les cellules P14 préstimulées qui sont re-stimulées avec des ligands peptidiques modifiés montrent des puissantes fonctions effectrices telles que la cytotoxicité et la production des cytokines effectrices TNFa et IFNy. Ces cellules induisent le diabète de type 1 lorsqu'elles ont été transférées dans des souris qui expriment l'antigène GP LCMV sous le contrôle du promoteur de l'insuline dans les îlots de Langerhans. Dans l'ensemble, nos résultats montrent que l'IL-15 et l'IL 21 produites durant une réponse inflammation chronique pourraient pré-stimuler des cellules T CD8+ potentiellement autoréactives, conduisant ainsi à des maladies auto-immunes. // Abstract : The activation of naive CD8[superscript +]T cells by an antigen requires two different signals. The first signal is mediated via the T cell receptor (TCR) following its interaction with the peptide presented on class-I major histocompability complex (MHC-I) molecules. The second signal is delivered via the co-stimulatory receptors upon recognition of their ligands on antigen presenting cells. However, in response to homeostatic pressure, as in lymphopenia, naive T cells undergo proliferation without antigenic stimulation through a process referred to as lymphopenia-induced proliferation (LIP). LIP of naive CD8[superscript +] T cells requires IL-7 and a self peptide presented by MHC-I, which implies that TCR signaling is needed for LIP of naive CD8[superscript +]T cells. Recent work from our laboratory has shown that with the homeostatic cytokines IL-7 and IL-15 synergize with IL-21 to induce antigen-independent proliferation of naive CD8[superscript +]T cells. Moreover, this cytokine-driven, antigen-independent proliferation "sensitizes" or "primes" naive CD8[superscript +] T cells to undergo robust proliferation in response to limiting concentrations of their cognate antigens. Cytokine-primed CD8[superscript +]T cells also abundantly produce effector cytokines, such as TNF? and IFN? and display a potent CTL activity following stimulation by antigen when pre-stimulated. In my project, I have investigated whether cytokine-induced priming could be an important mechanism by which potentially autoreactive naive CD8[superscript +]T cells are stimulated to cause autoimmune disease using a TCR transgenic mouse model of autoimmune type 1 diabetes (T1D). These mice harbor CD8[superscript +]T cells that express transgenic P14 TCR (P14 cells), which recognizes an antigenic peptide derived from the glycoprotein antigen (GP33) of lymphocytic choriomeningitis virus (LCMV). We show that, following priming with IL-21 in the presence of IL-7 or IL-15, P14 cells gain the ability to respond robustly to modified peptide ligands that possess weak agonistic activity towards unprimed P14 cells. Furthermore, cytokine-primed P14 cells stmulated with weak TCR ligands displayed potent effector functions such as cytotoxicity and production of effector cytokines, TNF? and IFN?. These cells also induced T1D when adoptively transferred to mice that expressed the LCMV GP antigen under the control of the insulin promoter in the islets. Collectively, our findings show that IL-15 and IL-21 produced during chronic inflammatory conditions could cause priming of potentially autoreactive CD8[superscript +]T cells, leading to autoimmune diseases. [symboles non conformes] Diabète autoimmun Pré-stimulation avec des cytokines IL-15 IL-21 Cellule T CD8[indice supérieur +] CD8+ T cells Cytokine priming Autoimmune diabetes
65	L'immunodominance résulte d'une compétition entre les populations lymphocytaires T CD8⁺ reconnaissant différents antigènes Roy-Proulx, Guillaume January 2006 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. Lymphocyte T CD8⁺ Antigènes/épitopes Immunodominance Immunodomination Compétition interclonale Cytotoxicité Cellules présentatrices d'antigènes Récepteur de cellule T Diversité du répertoire Interaction TCR-ligand Cible immunothérapeutique
66	Perfil fenotípico e funcional de células Natural Killers induzido por ligantes de receptores Toll-like e células T CD8+ antígeno-específicas em indivíduos expostos e não infectados por HIV-1 / Phenotypic and functional profile of Natural Killer cells induced by Toll-like receptors ligands and antigen-specific CD8+ T cells in HIV-1 exposed uninfected individuals Lima, Josenilson Feitosa de 14 March 2014 (has links) Introdução: A resistência a infecção pelo HIV-1 depende de fatores virais, genéticos e imunológicos do hospedeiro, incluindo os componentes da resposta imune inata e adaptativa. As células Natural Killer (NK) e as células T CD8+ são as principais células efetoras que medeiam atividade citotóxica contra células transformadas ou infectadas, que exercem importante papel protetor nos indivíduos expostos e não infectados por HIV-1 (ENI). Objetivo: Avaliar a expressão de receptores de ativação e inibição/exaustão nas células NK e T CD8+, e a capacidade das células NK em secretar citocinas e componentes citotóxicos após estimulação via receptores Toll-like (TLRs), e a resposta de células T CD8+ a peptídeos da Gag do HIV-1 em indivíduos ENI e seus parceiros infectados por HIV-1. Resultados: No grupo ENI foi observado aumento da frequência de células NK CD56bright que expressam moléculas de ativação NKG2D e CD95 na população CD56dim, enquanto no grupo HIV-1 foi mais prevalente a expressão de MIC A/B em ambas populações de células NK, com redução da expressão de NKG2D na população CD56dim. Além disto, foi observado expansão da população de células NK CD56dim que expressam CD94, NKG2C e principalmente de CD57 foi mais prevalente nos indivíduos ENI, com correlação positiva com títulos de anticorpos IgG anti-citomegalovírus humano. Nos indivíduos ENI foi observado que a ativação via TLR-3, TLR-7 ou TLR-7/8 foi capaz de potencializar a expressão de marcadores de desgranulação e de citotoxicidade, CD107a e granzima B, principalmente na população CD56dim, e de IFN-y e TNF nas populações CD56bright e CD56dim. Além disto, somente o grupo ENI, foi detectado aumento da freqüência de células NK secretoras de CD107a, granzima B, IFN-y e TNF, após estimulação com acetato de miristato de forbol e ionomicina. A frequência de expressão de alelos de KIR (killer cell immunoglobulin-like receptors) foi similar entre os grupos analisados. Elevada frequência de células T CD8+ CD38+ e CD8+PD-1+ (programmed cell death protein 1) foi detectado nos grupos ENI e HIV-1, cuja alteração foi observada em todas as fases de maturação celular. Os indivíduos ENI mostraram presença de resposta antígeno-específica de células T CD8+ secretoras de CD107a, granzima B, IFN-y e TNF, semelhante ao grupo HIV-1. Conclusão: Os resultados mostraram que no grupo ENI, as células NK expressam um perfil de ativação, com potente resposta aos estímulos de resposta inata e células NK com perfil de memória. Presença de células TCD8+ antígeno-específica foi evidenciada no grupo ENI, com perfil semelhante, mas de menor magnitude ao detectado no grupo infectado por HIV. Em conjunto, os achados mostraram que no grupo ENI a resposta inata está potencialmente ativa, e que em associação a resposta T CD8+ antígeno-específica podem contribuir para a resistência a infecção pelo HIV-1 / Introduction: Resistance to human immunodeficency virus 1 (HIV-1) is dependent on viral, genetic and immunological host factors, including components of innate and adaptive immune response. Natural Killers cells (NK) and CD8+ T cells are main effectors cells mediating cytotoxic role against transformed or infected cells, playing a crucial role in HIV-1 exposed uninfected individuals (EU). Aim: To evaluate the expression of activation and inhibitory/exhaustion receptors on NK cells and CD8+ T-cells, and to determine the NK cells ability to cytokines and cytotoxic molecules secretion upon Toll-like receptors (TLRs) pathway activation as well as CD8+ T-cells response to HIV Gag peptides in EU individuals and HIV-1 infected partner. Results: Increased frequency of NK CD56bright cells expressing NKG2D and CD95 on CD56dim cells have been observed in EU group, while HIV-1 group was more prevalent MIC A/B expression in both NK cells subsets, with reduced expression of NKG2D in CD56dim cells. Moreover, expansion of NK CD56dim cells expressing CD94, NKG2C, and CD57 was prevalent on ENI group, which positive correlation with anti-human cytomegalovirus IgG serum titers. EU individuals showed that TLR-3, TLR-7 or TLR-7/8 pathway activation was able to enhance CD107a and granzyme B expression in CD56dim cells, and IFN-y and TNF expressions levels in both CD56bright and CD56dim NK cells. Moreover, only in EU group, high frequency of NK cells expressing CD107a, granzyme B, IFN-y and TNF were detected upon phorbol myristate acetate and ionomicyn stimulation. Frequency of KIR alleles (killer cell immunoglobulin-like receptors) was similar between groups. High frequency of CD8+CD38+ and CD8+PD-1+ (programmed cell death protein 1) T-cells were observed in EU and HIV-1 groups, in all stages of cellular differentiation. EU subjects showed presence of antigen-specific response by CD8+ T-cells secreting CD107a, granzyme B, IFN-y and TNF similar to HIV-1 group. Conclusion: The results showed that NK cells in EU subjects express activating profile, with potent ability to innate immune stimuli, as well as NK cells with memory profile. Presence of antigen-specific CD8+ T-cells was detected in EU group, with similar profile, but in less magnitude than HIV-1 group. Taken together, the findings showed an enhanced innate immune response in EU subjects, in association with antigen-specific CD8+ T-cell response can contribute to resistance to HIV-1 infection CD8-positive T-lymphocytes Células Natural Killer HIV-1 HVI-1 Linfócitos T CD8-positivos Natural Killer cells Receptores toll-like Toll-like receptors
67	Estudo das populações de linfócitos T e linfócitos B esplênicos e do sangue periférico de camundongos BALB/c imunizados com taquizoítos de Toxoplasma gondii irradiados. / Study of populations T lymphocytes and B lymphocytes in the spleen and peripheral blood of immunized BALB/c mice with irradiated T. gondii tachyzoites. Zorgi, Nahiara Esteves 03 March 2016 (has links) Taquizoítos de T. gondii esterilizados por radiação ionizante é uma vacina interessante para induzir uma imunidade semelhante à infecção, mas sem a formação de cistos. Neste estudo avaliamos as populações celulares do sangue e do baço induzidas pela imunização, a resposta imune humoral, celular e a proteção após desafio com parasitas viáveis. Camundongos foram imunizados com taquizoítos de T. gondii irradiados por v.o. ou i.p.. Os animais foram desafiados com 10 cistos da cepa ME-49 ou VEG por via oral e apresentaram altos níveis de proteção com baixa carga parasitária. Camundongos imunizados por i.p. e v.o. apresentaram anticorpos específicos no soro e o aumento das populações de células B, plasmócitos, células TCD4+ e TCD8+ tanto no sangue como no baço. As células esplênicas de camundongos imunizados por i.p. mostraram a produção de IL-10, IFN-γ e IL-4. Células TCD4+ e células B do baço de camundongos imunizados por i.p. proliferaram após a estimulação com antígeno. A imunização com esse modelo vacinal induziu uma resposta imune mediada com células B, TCD4+ e TCD8+, com aumento da resposta imune humoral e celular que são necessárias para proteção do hospedeiro após uma infecção. Essa resposta imune induzida é uma resposta semelhante a uma infecção natural, sendo assim o desenvolvimento de vacinas utilizando a radiação ionizante como uma ferramenta, pode ser um modelo atrativo e eficiente para testar novos imunógenos no futuro. / Tachyzoites of T. gondii sterilized by ionizing radiation is an interesting vaccine for inducing immunity to infection similarly but without the formation of cysts. In this study we evaluated the cell populations from blood and spleen induced by immunization, the humoral immune response, cellular and protection after challenge with viable parasites. Mice were immunized with irradiated tachyzoites of T. gondii by v.o. or i.p.. The animals were challenged with 10 cysts of the ME-49 or VEG strain orally and showed high levels of protection with low worm burden. Immunized mice by i.p. and v.o. present specific antibodies in the serum and increased populations of B cells, plasma cells, CD4+ and CD8+ T cells in blood and spleen. The spleen cells of immunized mice by i.p. showed the production of IL-10, IFN-γ and IL-4. CD4+ T cells and B cells in the spleen of immunized mice i.p. proliferated upon stimulation with antigen. The immunization with this vaccine model induced an immune response mediated by B cells, CD4+ and CD8+ with increased humoral and cellular immune response are necessary for host protection after infection. This induced immune response is a response similar to natural infection, therefore the development of vaccines using ionizing radiation as a tool, can be an attractive and efficient model for testing new immunogens in the future. Toxoplasma gondii Toxoplasma gondii B-lymphocytes CD4+ T lymphocytes CD8+ T lymphocytes Ionizing radiation Linfócitos B Linfócitos T CD4+ Linfócitos T CD8+ Radiação ionizante Vaccine Vacina
68	Células Natural Killer na modulação da imunidade celular em humanos. / Natural Killer cells in the modulation of cell-mediated immunity in humans. Salomon, Maria Alejandra Clavijo 17 August 2016 (has links) Células dendríticas (DCs) são componentes centrais da imunidade celular, responsáveis pelo priming de linfócitos T naïve. A polarização de linfócitos T é restrita aos sinais fornecidos durante a apresentação do antígeno. Além desses sinais, a origem e natureza de DCs que induzem diferentes perfis de linfócitos T não é totalmente compreendida. Foi investigada a capacidade de células Natural Killer (NK) de modular estágios iniciais da diferenciação de monócitos em DCs e de impactar na sua função de primar e polarizar linfócitos T naïve. DCs derivadas de monócitos pré-co-cultivados com células NK favorecem o priming de linfócitos T CD8 do tipo Tc1/Tc17, com potente capacidade de produção de IFN-γ. Este fenômeno foi dependente de interações longas via NKp30 e da maquinaria citotóxica de células NK desencadeada nas etapas inicias da sua interação com monócitos. Esta interação pode ter implicações na compreensão da imunidade mediada por linfócitos T CD8 e pode ser explorada para imunoterapia em que a produção de IFN-γ por células T CD8 é necessária ou exacerbada. / Dendritic cells (DCs) are central components of cellular immunity, responsible for the priming of naïve T cells. The polarization of T cells is restricted to signals provided during antigen presentation. Besides such signals, the origin and nature of DCs that induce different T cell profiles is not fully understood. The ability of natural killer cells (NK) to modulate early stages of monocytes differentiation into DCs and to impact on DCs function to prime and polarize naïve T cells was investigated. DCs derived from monocytes co-cultured with NK cells support the priming of type Tc1/Tc17 CD8 T cells with potent IFN-γ production capacity. NK cell-mediated cytotoxicity triggered at early stages of NKp30-dependent long-lasting monocytes-NK-cells interactions, mediated the mechanism by which this phenomenon occurred. This interaction may have implications in the understanding of CD8 T cell-mediated immunity and can be exploited for immunotherapy in which IFN-γ production by CD8 T cells is required or exacerbated. CD8 T cells Células dendríticas Células Natural Killer Dendritic cells IFN-γ IFN-γ Linfócitos T CD8 Monócitos Monocytes Natural Killer cells NKp30 NKp30
69	Immuno-modulatory functions of tenascin-C in a tumor progression model / Fonctions immuno-modulatrices de la ténascine-C dans un modèle de progression tumorale Murdamoothoo, Devadarssen 14 September 2018 (has links) La ténascine-C (TNC), protéine de la matrice extracellulaire, favorise la progression tumorale et la métastase par des mécanismes pas totalement élucidés. J’ai utilisé un nouveau modèle de progression tumorale de la glande mammaire basé sur une approche de greffe de cellules tumorales orthotopiques syngéniques et j’ai ainsi identifié la TNC comme un régulateur important de la croissance tumorale. L’expression concomitante de la TNC par les cellules de l’hôte et les cellules tumorales induit une régression de la tumeur en induisant une signature de présentation d’antigène. Cette signature a été corrélée avec une meilleure survie des patientes atteintes de cancer du sein. D’autre part, la TNC exprimée par les cellules tumorales induit également l’expression de CXCL12 au sein de la tumeur, piégeant les lymphocytes CD8+ dans des travées de matrice enrichies avec le CXCL12 lié à la TNC. L’inhibition du récepteur de CXCL12, le CXCR4 provoque une régression tumorale qui s’accompagne d’un afflux important de lymphocytes T CD8+ et d’une augmentation de la mort cellulaire au sein du lit tumorale. La séquestration des lymphocytes T cytotoxiques par la TNC dans les travées de matrice peut avoir une implication importante dans le développement et l’utilisation des nouvelles immunothérapies ciblant l’activité des cellules effectrices du système immunitaire. / The extracellular matrix molecule tenascin-C (TNC) promotes tumor progression and metastasis by poorly understood mechanisms. I used a novel breast progression model based on a syngeneic orthotopic tumor cell grafting approach and identified TNC as an important regulator of tumor growth. I document that TNC promotes the battle between tumor regression and growth, where combined expression of tumor cell- and host-derived TNC induces tumor cell rejection. Tumor cell-derived TNC may elicit regression by induction of an antigen presenting signature (APS) expressed by the host, which correlates with better breast cancer patient survival. Tumor-cell derived TNC also triggers CXCL12 expression, thereby causing trapping of CD8+ T cells in the surrounding TNC matrix tracks. TNC binds CXCL12, and combined TNC/CXCL12 attracts and immobilizes CD8+ T cells. Inhibition of the CXCL12 receptor CXCR4 causes tumor regression that is accompanied by massive infiltration of CD8+ T cells and cell death inside the tumor cell nests. Altogether,TNC-triggered CXCL12 signaling may dampen CD8+ T cell function where physical trapping of CD8+ T cells in the TNC matrix may have implications for immune cell therapies. Our results and new tumor model, offer novel opportunities for preclinical cancer research and cancer patient therapy, by triggering the “good” and blocking the “bad” actions of TNC. In particular, overcoming the immune suppressive action of TNC, through inhibition of CXCR4, could be a useful approach. Ténascine-C Lymphocytes T CD8+ CXCL12 Immunité anti-tumorale Présentation d’antigène Tenascin-C CD8+ T cells CXCL12 Tumor immunity Antigen presentation 571.96 616.99
70	Caracterização fenotípica e funcional de linfócitos TCD8+ circulantes na síndrome de Sézary / Phenotypic and functional characterization of circulating CD8+ T lymphocytes in Sezary syndrome Torrealba, Marina Passos 16 September 2016 (has links) INTRODUÇÃO: A Síndrome de Sézary (SS) é um linfoma cutâneo de células T (LCCT), caracterizado por eritrodermia, linfadenopatia generalizada e presença de células tumorais na pele, linfonodos e sangue periférico. Os linfócitos TCD8+ têm papel fundamental na resposta imune antitumoral, entretanto, há escassos estudos evidenciando seu perfil fenotípico e funcional. Considerando que a resposta imunológica do paciente com SS está suprimida, estratégias para potencializar a imunidade inata e adaptativa com agonistas de receptores Toll-like (TLRs) têm sido exploradas. OBJETIVO: Caracterizar o perfil de marcadores de ativação/inibição das células TCD8+, seus estágios de diferenciação, capacidade de resposta a IL-7/IL-15 e ao agonista de TLR7/TLR8 de pacientes com SS. METODOLOGIA: Foram selecionados 15 pacientes com SS (7 homens e 8 mulheres) com 48-85 anos do Ambulatório de Linfomas Cutâneos, do HC-FMUSP, e um grupo de controle com 24 indivíduos sadios. A análise de marcadores de ativação/inibição e diferenciação celular em células TCD4/TCD8+ do sangue periférico foi realizada por citometria de fluxo. A expressão de marcadores extracelulares e citocinas intracelulares em células mononucleadas do sangue periférico (CMN) após estimulação com o agonista de TLR7/TLR8 foi analisada por citometria de fluxo. Além disto, o efeito de IL-7 e IL-5 em células T foi avaliado pela fosforilação de STAT5, na capacidade de proliferação mitogênica e expressão de BCL-2 em CMNs, como também pelos níveis séricos de IL-7 por citometria de fluxo. RESULTADOS: Os pacientes com SS mostram perfil fenotípico de ativação crônica nos linfócitos TCD8+ periféricos, decorrente do elevadopercentual de células TCD8+ CD38+, redução percentual de TCD8+ CD127+ (IL-7R) e da população naive. Além disso, ocorreu aumento de expressão de PD-1 na população naive de células TCD8+. O marcador de ativação, CD26, até então apenas relacionado com linfócitos TCD4, foi detectado em reduzida percentagem de linfócitos TCD8. A resposta para IL-7/IL-15 parece estar funcionalmente presente tanto nos linfócitos TCD4 quanto nos linfócitos TCD8. Contudo, foi encontrado um perfil diferenciado e heterogêneo de fosforilação de STAT5 assim como de expressão de BCL-2 nos linfócitos TCD8+ de pacientes com SS. O nível sérico de IL-7 reduzido dos pacientes com SS foi inversamente correlacionado com o número absoluto de linfócitos TCD4+. CONCLUSÃO: Os linfócitos TCD8+ dos pacientes com SS encontram-se reduzidos em números absolutos, e possuem um perfil alterado de diferenciação celular e expressão de marcadores extracelulares. A redução percentual da população de TCD8+ naive associada com a presença de moléculas de ativação crônica mostra um perfil de imunosenescência. As células TCD8+ exibem baixa capacidade de resposta aos ligantes de TLR intracelulares, provavelmente devido ao perfil de ativação crônica. Além disso, há resposta parcial dos linfócitos TCD8+ às citocinas ligantes do receptor yc. Nossos resultados evidenciam alterações em linfócitos TCD8+ que debilitam a resposta imune antitumoral e que pode contribuir com a patogênese da síndrome de Sézary / INTRODUCTION: Sézary syndrome (SS) is a cutaneous T cell lymphoma (CTCL), characterized by erythroderma, generalized lymphadenopathy and the presence of tumor cells in the skin, lymph nodes and peripheral blood. The TCD8+ lymphocytes play a key role in anti-tumor immune response, whereas, there are few studies showing its phenotypic and functional profile in SS. Considering that the immune response of SS patient is suppressed, strategies to enhancing the innate and adaptive immunity by Toll-like receptors (TLRs) agonists have been explored. OBJECTIVE: To characterize the profile of activation/inhibition markers of CD8+ T cells, their stages of differentiation, ability of response to IL-7/IL-15 and TLR7/TLR8 agonist of patients with SS. METHODOLOGY: Fifteen SS patients were enrolled (7 men and 8 woman) with 48-85 years from the Clinic of Cutaneous Lymphomas, HC-FMUSP, and a control group of 24 healthy individuals. Analysis of activation/inhibition markers and cellular differentiation in CD4/CD8 T cells from peripheral blood were assessed by flow cytometry. The expression of extracellular markers and intracellular cytokines in mononuclear cells in the peripheral blood (CMN) were evaluated by flow cytometry. Moreover, the effect of IL-7 and IL-15 stimulation in T cells was assessed by the STAT5 phosphorylation, proliferative mitogenic capacity, BCL-2 expression in CMNs as well as serum IL-7 levels by flow cytometry. RESULTS: Patients with SS show a phenotypic CD8 T peripheral lymphocytes profile of chronic activation, due to the high percentage of CD8+CD38+ T cells, reduced percentage of CD8+CD127+ (IL-7R) and naïve population. Furthermore, it was observed an increased PD-1 expression in the naïve CD8+ T cells. The activation marker CD26, previously only associated with CD4 T lymphocyte, was detected at decreased percentage in CD8 T lymphocytes. The TLR7/TLR8 agonist did not affect the IFN-? and TNF secretion of CD8 T lymphocytes of SS patients, in contrast to the control group. The response to IL-7/IL-15 appears to be functional in both CD4 and CD8 T lymphocytes. However, it was founded a differentiated and heterogeneous profile of STAT5 phosphorylation and Bcl-2 expression in the CD8 T lymphocytes in SS patients. The reduced IL-7 serum of patients with SS was inversely correlated with the absolute number of CD4 T lymphocytes. CONCLUSION: CD8 T lymphocytes of patients with SS are reduced in absolute numbers, and show an altered cellular differentiation profile and extracellular markers expression. The reduced percentage of CD8 naïve population associated with chronic activation of molecules reveals an immunosenescence profile. The CD8 T cells exhibit low ability to ligands of intracellular TLR receptors, probably due to chronic activation profile. In addition, there are partial response of CD8 T lymphocytes to the cytokine receptor ?c. Our results show disturbance in CD8 T lymphocytes that may impair the anti-tumor response contributing to the pathogenesis of Sézary syndrome Adaptive Immunity Antígenos CD38 Antigens CD38 CD8-Positive T-Lymphocytes Citometria de fluxo Flow cytometry Imunidade adaptativa Interleucina-7 Interleukin-7 Linfócitos T CD8-positivos Sézary syndrome Síndrome de Sézary

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