Global ETD Search

71	Modulation de la production de cytokines par l'environnement MERLOT, Élodie 21 November 2003 (has links) (PDF) Les conséquences immunitaires d'un stress d'origine environnementale sont complexes et encore difficilement prévisibles. Le stress affecte le système immunitaire soit en agissant sur l'immunité innée, en altérant la réactivité inflammatoire, soit en agissant sur l'immunité acquise, en modulant la production de cytokines dites Th1 et Th2. L'environnement social<br />contribue largement au développement et à l'expression de maladies. Dans les espèces sociales, la position sociale occupée dans le groupe module la susceptibilité aux infections mais les supports endocriniens et immunitaires de ces différences de susceptibilité sont ignorés. La remise en cause de l'organisation sociale engendre un stress important dont les conséquences immunitaires sont encore sujettes à controverse.<br />Ce travail de thèse a pour objectifs (1) de décrire l'influence du statut social sur le fonctionnement des systèmes endocrinien et immunitaire, (2) de préciser les effets du stress<br />social sur la production de cytokines et la susceptibilité aux infections et (3) de rechercher des facteurs à l'origine de la variabilité des conséquences immunitaires du stress social.<br />Chez le porcelet, un regroupement après le sevrage élève transitoirement le cortisol salivaire et altère le comportement mais n'affecte pas la réactivité des lymphocytes sanguins.<br />La suite des travaux a utilisé une procédure de défaite sociale chronique chez la souris. Les résultats obtenus mettent en évidence une influence du statut social. En absence de stress, les<br />dominants présentent des niveaux de base de corticostérone et une réponse spécifique à la tuberculine supérieurs aux dominés. Suite à une défaite sociale, les dominants sont plus affectés que les dominés. La défaite sociale augmente la réactivité inflammatoire mais ne modifie pas de façon nette l'équilibre de la production de cytokines de type Th1 et Th2 et n'affecte pas l'immunité spécifique développée contre une infection mycobactérienne. Les conséquences immunitaires de la défaite sociale ne sont observées que lorsque le stress est associé à des combats et à des blessures. Ces travaux montrent que la réponse au stress dépend de l'histoire sociale de l'individu, en particulier de son statut social. De plus, les<br />répercussions immunitaires du stress dépendent aussi de l'histoire immunitaire récente. En effet, une réaction inflammatoire systémique inhibe la libération plasmatique de cytokines<br />inflammatoires en réponse à un stress psychologique ultérieur. [SDV:IMM] Life Sciences/Immunology stress social statut social balance Th1/Th2 inflammation Souris
72	Modulation de la production de cytokines par l'environnement social et susceptibilité aux infections MERLOT, Élodie 11 1900 (has links) (PDF) Les conséquences immunitaires d'un stress d'origine environnementale sont complexes et encore difficilement prévisibles. Le stress affecte le système immunitaire soit en agissant sur l'immunité innée, en altérant la réactivité inflammatoire, soit en agissant sur l'immunité acquise, en modulant la production de cytokines dites Th1 et Th2. L'environnement social contribue largement au développement et à l'expression de maladies. Dans les espèces sociales, la position sociale occupée dans le groupe module la susceptibilité aux infections mais les supports endocriniens et immunitaires de ces différences de susceptibilité sont ignorés. La remise en cause de l'organisation sociale engendre un stress important dont les conséquences immunitaires sont encore sujettes à controverse. Ce travail de thèse a pour objectifs (1) de décrire l'influence du statut social sur le fonctionnement des systèmes endocrinien et immunitaire, (2) de préciser les effets du stress social sur la production de cytokines et la susceptibilité aux infections et (3) de rechercher des facteurs à l'origine de la variabilité des conséquences immunitaires du stress social. Chez le porcelet, un regroupement après le sevrage élève transitoirement le cortisol salivaire et altère le comportement mais n'affecte pas la réactivité des lymphocytes sanguins. La suite des travaux a utilisé une procédure de défaite sociale chronique chez la souris. Les résultats obtenus mettent en évidence une influence du statut social. En absence de stress, les dominants présentent des niveaux de base de corticostérone et une réponse spécifique à la tuberculine supérieurs aux dominés. Suite à une défaite sociale, les dominants sont plus affectés que les dominés. La défaite sociale augmente la réactivité inflammatoire mais ne modifie pas de façon nette l'équilibre de la production de cytokines de type Th1 et Th2 et n'affecte pas l'immunité spécifique développée contre une infection mycobactérienne. Les conséquences immunitaires de la défaite sociale ne sont observées que lorsque le stress est associé à des combats et à des blessures. Ces travaux montrent que la réponse au stress dépend de l'histoire sociale de l'individu, en particulier de son statut social. De plus, les répercussions immunitaires du stress dépendent aussi de l'histoire immunitaire récente. En effet, une réaction inflammatoire systémique inhibe la libération plasmatique de cytokines inflammatoires en réponse à un stress psychologique ultérieur. [SDU] Sciences of the Universe [SDV] Life Sciences Stress social Statut social balance Th1 Th2 Inflammation Souris
73	Mercury-induced autoimmunity : Genetics and immunoregulation Hansson, Monika January 2004 (has links) <p>The existence of immune self-tolerance allows the immune system to mount responses against infectious agents, but not against self-molecular constitutes. Although self-tolerance is a robust phenomenon, in some individuals as well as in experimental models, the self-tolerance breaks down and as a result, a self-destructive autoimmune disease emerges. The underlying mechanisms for the development of autoimmune diseases are not known, but genetic, environmental and immunological factors are suggested to be involved. In this thesis, we used murine mercury-induced autoimmunity to test this suggestion.</p><p>In susceptible mice mercuric chloride induces a systemic autoimmune disease characterized by increased serum levels of IgG1 and IgE, production of anti-nucleolar autoantibodies (ANolA) and formation of renal IgG deposits. In contrast, in resistant DBA/2 (H-2<sup>d</sup>) mice, none of these characteristics develop after exposure to mercury. By crossing and backcrossing mercury-resistant DBA/2 mice to mercury susceptible strains, we found that the resistance was inherited as a dominant trait in F1 hybrids and that one gene or a cluster of genes located in the H-2 loci determined the resistance to ANolA production, whereas resistance to the other characteristics was found to be controlled by two or three non-H-2 genes.</p><p>We further put forward the “cryptic peptide hypothesis” to investigate whether mercury and another xenobiotic metal use similar pathway(s) to induce the H-2 linked production of ANolA. We found that while mercury stimulated ANolA synthesis in all H-2 susceptible (H-2<sup>s</sup>, H-2<sup>q</sup> and H-2<sup>f</sup>) mouse strains, silver induced only ANolA responses in H-2<sup>s</sup> and H-2<sup>q</sup> mice, but not in H-2<sup>f </sup>mice. Further studies showed that the resistance to silver-induced ANolA production in H-2<sup>f </sup>mice was inherited as a dominant trait.</p><p>We next tested the proposition that mercury induces more adverse immunological effects in mouse strains, which are genetically prone to develop autoimmune diseases, using tight-skin 1 mice, an animal model for human Scleroderma. It was found that in this strain, mercury induced a strong immune activation with autoimmune characteristics, but did not accelerate the development of dermal fibrosis, a characteristic in Tsk/1 mice.</p><p>Finally we addressed the Th1/Th2 cross-regulation paradigm by examining if a Th1-type of response could interact with a Th2-type of response if simultaneous induced in susceptible mice. Our findings demonstrated that mercury-induced autoimmunity (Th2-type) and collagen-induced arthritis (CIA) (Th1-type) can interact in a synergistic, antagonistic or additive fashion, depending on at which stage of CIA mercury is administered.</p> mercury autoimmunity collagen-induced arthritis Th1/Th2 silver tight-skin 1 mice Immunology Immunologi
74	Neonatal T Cell Responses are Highly Plastic: I. Neonates Generate Robust T Cell Responses against Alloantigens II. Functional Capabilities of Neonatal RTE are more Diverse than Adult RTE Opiela, Shannon Jacqueline 28 July 2008 (has links) Neonatal immune responses are typically deficient against a wide variety of antigens, including alloantigens, vaccine antigens, and infectious agents. These responses are characterized by Th2-skewed cytokine production, and deficient Th1 and cytotoxic responses. However, these deficient responses can be boosted to adult levels by the use of strong, Th1 promoting agents. This demonstrates that neonates are capable of developing mature immune responses under specific conditions. Using two different murine models, we have found that neonates develop robust Th and cytotoxic responses, which under some antigenic conditions significantly exceed those of adults. First, using a model of early life exposure to noninherited maternal antigens (NIMA), we found that murine neonates develop robust in vivo cytotoxic responses to low doses of alloantigens. Importantly, primary in vivo cytotoxic responses to alloantigen developed during the neonatal period, and persisted into adulthood. Neonates developed similar memory cytotoxic responses to donor spleen cells, bone marrow, and stem cell-enriched (Lin-) bone marrow cells, suggesting that the exposure dose is more important than the type of transplanted donor cell for the development of cytotoxicity. NIMA-exposed neonates also developed vigorous primary and memory allospecific Th1/Th2 responses which exceeded the responses of adults. These findings suggest that early exposure to low levels of NIMA may lead to long term immunological priming of all arms of T cell adaptive immunity. Second, we characterized the phenotype and function of neonatal recent thymic emigrants (RTE). RTE are the predominant cell type in murine neonates, and are present at higher frequencies within the neonatal CD4+ compartment than in adults. Our data demonstrate that RTE from murine neonates and adults are phenotypically and functionally distinct. In particular, although the magnitude of RTE cytokine responses from both age groups is dependent on the conditions of activation, neonatal RTE consistently exhibited higher levels of effector cytokine production than adult RTE. In particular, activation of neonatal RTE in the presence of IL-7 lead to greatly increased IFNgamma production, while adult responses were not altered. Overall, neonatal RTE responses were more plastic than those of adult RTE, as both Th1 and Th2 responses were altered in neonates using various activation conditions, while only Th2 responses were consistently changed in adults. Finally, in contrast to adult RTE, neonatal RTE proliferated in response to IL-7 stimulation at very early timepoints. This was associated with faster kinetics of IL-7Ralpha downregulation and higher levels of pSTAT5 in neonatal RTE. These quantitative and qualitative differences in neonatal RTE populations may largely explain the diverse responses that are elicited in neonates in response to different antigens, especially under those conditions in which Th1 responses are enhanced (i.e., exposure to NIMA alloantigens). Taken together, these data demonstrate that neonatal T cell responses are actually highly plastic, instead of intrinsically deficient. Furthermore, if given optimal stimulation conditions, neonatal responses can actually exceed those produced by adults.
75	Mercury-induced autoimmunity : Genetics and immunoregulation Hansson, Monika January 2004 (has links) The existence of immune self-tolerance allows the immune system to mount responses against infectious agents, but not against self-molecular constitutes. Although self-tolerance is a robust phenomenon, in some individuals as well as in experimental models, the self-tolerance breaks down and as a result, a self-destructive autoimmune disease emerges. The underlying mechanisms for the development of autoimmune diseases are not known, but genetic, environmental and immunological factors are suggested to be involved. In this thesis, we used murine mercury-induced autoimmunity to test this suggestion. In susceptible mice mercuric chloride induces a systemic autoimmune disease characterized by increased serum levels of IgG1 and IgE, production of anti-nucleolar autoantibodies (ANolA) and formation of renal IgG deposits. In contrast, in resistant DBA/2 (H-2d) mice, none of these characteristics develop after exposure to mercury. By crossing and backcrossing mercury-resistant DBA/2 mice to mercury susceptible strains, we found that the resistance was inherited as a dominant trait in F1 hybrids and that one gene or a cluster of genes located in the H-2 loci determined the resistance to ANolA production, whereas resistance to the other characteristics was found to be controlled by two or three non-H-2 genes. We further put forward the “cryptic peptide hypothesis” to investigate whether mercury and another xenobiotic metal use similar pathway(s) to induce the H-2 linked production of ANolA. We found that while mercury stimulated ANolA synthesis in all H-2 susceptible (H-2s, H-2q and H-2f) mouse strains, silver induced only ANolA responses in H-2s and H-2q mice, but not in H-2f mice. Further studies showed that the resistance to silver-induced ANolA production in H-2f mice was inherited as a dominant trait. We next tested the proposition that mercury induces more adverse immunological effects in mouse strains, which are genetically prone to develop autoimmune diseases, using tight-skin 1 mice, an animal model for human Scleroderma. It was found that in this strain, mercury induced a strong immune activation with autoimmune characteristics, but did not accelerate the development of dermal fibrosis, a characteristic in Tsk/1 mice. Finally we addressed the Th1/Th2 cross-regulation paradigm by examining if a Th1-type of response could interact with a Th2-type of response if simultaneous induced in susceptible mice. Our findings demonstrated that mercury-induced autoimmunity (Th2-type) and collagen-induced arthritis (CIA) (Th1-type) can interact in a synergistic, antagonistic or additive fashion, depending on at which stage of CIA mercury is administered. mercury autoimmunity collagen-induced arthritis Th1/Th2 silver tight-skin 1 mice Immunology Immunologi
76	Cytokines and immune balance in preeclampsia : a survey of some immunological variables and methods in the study of preeclampsia Jonsson, Yvonne January 2005 (has links) Preeclampsia is one of the most feared pregnancy complications, with a risk of maternal and fetal death and with no ideal therapy readily available. The cause of this strictly pregnancyrelated disease is still unknown and is therefore a great challenge to all researchers in the field of pregnancy-related pathophysiology. Today, the dominating theory of the origin of preeclampsia is defective initial placentation with insufficient penetration of the trophoblasts, leading to impaired maternal blood flow through narrow spiral arteries. However, the cause of this defective trophoblast behavior is not known. The maternal immune system has been proposed to have an influence on both the placentation and the subsequent systemic reactions. Therefore, it is very interesting to study the maternal immune system during preeclampsia, in hope of achieving a better understanding of this puzzling disease. Earlier studies have suggested that normal pregnancy requires a shift to a Th2/antiinflammatory type of immunity, at least directed towards the fetus and placenta, while some pregnancy complications, such as preeclampsia, could be due to a skewed Th1/proinflammatory type of immunity. However, the results from earlier studies designed to test the Th1/Th2 hypothesis in preeclampsia have not been consistent. Therefore, the aim of this thesis was to examine if established preeclampsia is associated with increased innate inflammatory responses and a deviation of adaptive responses towards Th1 when compared with normal pregnancy. Enumerations of cytokine-producing cells from peripheral blood did not show any difference in the production of IFN-γ, IL-4, IL-10 and IL-12 between women with preeclampsia and normal pregnancies. However, a decrease in the spontaneously produced levels of IL-5 was detected in cell cultures on peripheral blood mononuclear cells in women with preeclampsia. Furthermore, a decreased production of IL-10 in response to paternal antigens, believed to represent the fetus, was also detected for the preeclamptic women. Serum analysis showed increased levels of the pro-inflammatory mediators IL-6 and IL-8 during preeclampsia. Also, preeclamptic women displayed increased serum levels of the soluble IL-4 receptor, but no difference in the levels of IL-4 compared to normal pregnant women. This was an elusive finding, since the receptor was originally thought to reflect the levels of IL-4, but has recently been shown to have both agonistic and antagonistic properties on the IL-4 levels. Further studies of the local immune responses in the placenta showed no difference in the immunohistochemical staining of IL-4 and TNF-α between women with preeclampsia and women with normal pregnancies. In general, there were no hallmarks of abnormal morphology in the placental sections examined, regardless of diagnosis. In conclusion, the decreased levels of IL-10 in response to paternal antigens and the systemically increased levels of IL-6 and IL-8 suggest a specific decrease in antiinflammatory responses towards fetal antigens, together with a systemic activation of proinflammatory mediators during preeclampsia. Furthermore, the decreased production of IL-5 also indicates, at least partly, decreased Th2 responses in the established preeclampsia. / Figure 1 on page 6 is republished in the Ph.D. thesis with the kind permisson of Blackwell Publishing (http://www.blackwellpublishing.com). Figure IX on page38, figure XB on page 41, figure XI on page 46 and figure XII on page 47 are all published in the Journal of Reproductive Immunology and republished with kind permisson from Elsevier (http://www.elsevier.com/) in the Ph.D. thesis. Preeclampsia Cytokines Leukocytes Immunology Placenta Th1/Th2 balance Inflammation Immunobiology Immunbiologi
77	The role of monocyte and monocyte-derived cells in influenza-induced pathology and Th1 immune responses Lin, Kaifeng Lisa January 2009 (has links) <p>Monocytes and monocyte-derived cells are important in providing innate immunity against various pathogens. Monocytes become macrophages or dendritic cells after they enter tissues during inflammation. Macrophages phagocytose microbes and kill them intracellularly in lysosomes. After macrophages are activated, they secret a variety of cytokines as part of innate defense. However, such cytokines have been implicated in causing autoimmune diseases and influenza-induced pathology. For these reasons, we have investigated the role of monocytes and monocyte-derived cells in inducing immune pathology. Moreover, monocytes are also thought to affect adaptive immunity by shaping T cell responses. Yet the enterity of their contributions to adaptive immune response remains to be determined. </p><p>CCR2 is the chemokine receptor required for inflammatory monocytes to enter tissues, and its deficiency in mice has been shown to be protective for influenza-induced immune pathology. We hypothesized that cells that depend on CCR2 to migrate into inflammaed lungs are the cells that induce immune pathology during influenza infection. First, we identified cell types that are recruited to the lungs by CCL2. Similar myeloid cell types, monocytes, monocyte-derived DCs (moDCs), and exudated macrophages (exMAC), also accumulate in the lungs during influenza infection. We then show that these myeloid cells types are derived from monocytes, and that they produce high levels of TNF-α and NOS2. Finally, we show a strong correlation between reduced accumulation of myeloid cells and decreased influenza-induced pathology and mortality in CCR2-deficient mice, suggesting that CCR2 inhibition may be a viable therapy for highly pathogenic influenza infection.</p><p>In the second part of this work, we focus on monocyte-derived dendritic cells in lymph nodes (LN). Inflammatory DCs in LN can arise from moDCs recruited via lymphatics (peripheral moDCs) and from inflammatory monocytes that enter LN directly from the blood (blood-derived moDCs). We examine the role of blood-derived moDCs in inducing LN T cell activation and polarization after immunogenic stimuli. We find that, following viral infection or immunization, inflammatory monocytes are recruited into LN directly from the blood to become CD11c<super>+<super>CD11b<super>hi<super>Gr-1<super>+<super> inflammatory DCs, which produce high levels of IL-12 (p70) and potently stimulate Th1 responses. This monocyte extravasation requires CCR2 but not CCL2 or CCR7. Thus, inflammatory DCs accumulation and Th1 responses are markedly reduced in CCR2<super>-/-<super> mice, preserved in CCL2<super>-/-<super> mice, and relatively increased in CCL19/21-Ser-deficient <italic>plt<italic> mice, in which all other LN DC types are reduced. </p><p>Our findings provide important insights into mutiple roles that monocytes play in both innate and adaptive immunity. Monocytes provide an early response against pathogens. As we now demonstrate, this response can be excessive, leading to a significant immune pathology during influenza infection that has been previously attributed to neutrophils. We also provide the first demonstration that monocytes play an important role in regulating adaptive immune responses. We find that monocyte-derived DCs are both sufficient and necessary for the development of Th1-polarized immune responses within LNs. Taken together, our results demonstrate that the roles played by monocytes in innate immunity adaptive immunity, and immune pathology are much greater than previously appreciated and that regulating monocyte function may be an effective means to regulate certain types of immune responses.</p> / Dissertation Immunology Cellular Biology CCR2 dendritic cell influenza virus monocyte Th1 response
78	Prenatal Stress, Depression, and Herpes Viral Titers Hsu, Pao-Chu 01 January 2013 (has links) Recent studies suggest that some cases of prenatal depression may be associated with reactivation of latent infections of the herpesvirus family. The possible relationships among stress, prenatal depression, and herpes viral reactivation in pregnancy are understudied and the molecular pathways such as the neuroimmune biogenic amine pathway are unidentified. Chronic stress shifts the T helper-1 cell (Th1) cytokine profile to a Th2 profile, which favors virus induced pathogenesis and survival. Pregnancy is also associated with a similar Th2 dominance. In non-pregnant individuals, exposure to psychological or physical stress may be associated with latent herpes viral reactivation and could result in behavioral deficits and depression. Normally, type-1 cytokines such as Interferon-gamma (IFN -gamma) and inflammatory cytokines such as tumor necrosis factor-alpha (TNF-alpha) induce indoleamine-2, 3-dioxygenase (IDO) activation which inhibits herpes virus replication and reactivation, decreases tryptophan production, and alters phenylalanine /tyrosine metabolism. Thus it is possible that prenatal depression may occur from tryptophan stealing through the IDO pathway which results in decreased serotonin as well as increased risk for latent herpes viral reactivation. The purpose of this study is to analyze the relationships among stress, herpes viral titers, depression, and metabolites of IDO activation, which involves tryptophan and guanosine-triphosphate-cyclohydrolase-1(GTP-CH1) pathways. This study builds on Influence of Lactation on Postpartum Stress and Immunity (Grant number: R01-NR05000) which investigated perinatal immune, endocrine, and inflammatory changes in pregnancy and the postpartum. A secondary data analysis was conducted on baseline data from women collected at 16 to 25 gestational weeks. This data set included some herpes viral titers, and additional ones were measured in stored plasma samples. The aim of this study is to examine relationships among stress, herpes viral reactivation, depression, and the IDO activation pathway. The results of this study provide information about the possible role of further relationships of prenatal stress, latent herpes viral reactivation, and depression mechanisms. The results will be important in health promotion and disease prevention during pregnancy. CMV HSV-2 IDO Phenylalanine Th1/Th2 Immunity Tryptophan Biological Psychology Immunology and Infectious Disease Nursing Virology
79	Th1 και Th2 τύπου κυτταροκίνες σε αυτοάνοσα νοσήματα Χατζαντώνη, Κοκώνα Π. 25 June 2007 (has links) Η παρούσα διατριβή είχε ως στόχο τη μελέτη των Th1 και Th2 τύπου κυτταροκινών σε αυτοάνοσες νόσους και τη διερεύνηση του τρόπου με τον οποίο η έκφρασή τους επηρεάζεται από παράγοντες όπως πεπτιδικά ανάλογα της βασικής πρωτείνης της μυελίνης και ανοσοτροποποιητικοί παράγοντες όπως το μόριο της λεπτίνης. Η μελέτη αυτών των παραγόντων εστιάστηκε στη νόσο της Σκλήρυνσης Κατά Πλάκας, επειδή πρόκειται για οργανοειδικό CD4+ Τ κυτταρομεσολαβούμενο αυτοάνοσο νόσημα με χαρακτηριστικό Th1 κυτταροκινικό προφίλ. Αυτά τα χαρακτηριστικά, σε συνδυασμό με το γεγονός ότι διαθέτει το καλύτερα μελετημένο αντίστοιχο ζωικό μοντέλο, την Επαγόμενη Αλλεργική Εγκεφαλομυελίτιδα, καθιστούν τη νόσο αυτή ένα ιδανικό πειραματικό σύστημα για την επίτευξη του στόχου της παρούσας εργασίας. / - Κυτταροκίνες Th1 Κυτταροκίνες Th2 Αυτοάνοσα νοσήματα Τ κύτταρα B κύτταρα 616.978 Autoimmune diseases
80	Mécanismes responsables de la protection des souris NOD contre le diabète de type 1 par les cellules dendritiques conditionnées à la TSLP Dogbe, Akuvi Mawulom January 2012 (has links) Le diabète de type 1 (DT1) est une maladie auto-immune qui résulte en la destruction des cellules (ß des îlots de Langerhans par les cellules du système immunitaire. Des travaux précédents de notre laboratoire ont identifié la cytokine "Thymic Stromal Lymphopoietin" (TSLP) comme étant un stimulus tolérogénique pour les cellules dendritiques (DCs) chez le modèle murin du DT1, la souris "Non Obese Diabeiic" (NOD). Les DCs conditionnées à la TSLP (TSLP-DCs) présentent un phénotype semi-mature, sont capables d’induire une réponse Th2 ainsi qu’une conversion et une expansion des lymphocytes T régulateurs (Tregs) in vitro et protègent les souris NOD contre le DT1. Ces observations nous ont amené à investiguer les mécanismes qui entraînent cette protection contre le DT1. Les travaux décrits dans ce mémoire montrent que les TSLP-DCs injectées chez les souris NOD migrent vers la rate, de manière privilégiée. Ces observations nous ont amené à étudier l’influence des TSLP-DCs sur la réponse Th1/Th2 au niveau de la rate. Nous avons observé que les splénocytes CD4[indice supérieur +] et CD8[indice supérieur +] de souris injectées avec des TSLP-DCs exprimaient moins d’IFN? par rapport au souris témoins (splénocytes des souris injectées avec des LPS-DCs). Ces résultats suggèrent une diminution de la réponse Th1 chez ces splénocytes. Par contre, les résultats obtenus avec l’IL-10 ne nous ont pas permis de conclure quant à l’influence des TSLP-DCs sur la réponse Th2. Cependant, nous avons confirmé la capacité des TSLP-DCs à induire la conversion des lymphocytes T CD4[indice supérieur +]CD25[indice supérieur -] en Tregs CD4[indice supérieur +]CD25[indice supérieur +]Foxp3[indice supérieur +]. Nous avons aussi montré que ces Tregs partiellement convertis inhibent la prolifération de lymphocytes T 8.3-CD8[indice supérieur +] diabétogènes, et empêchent la production d’IFN?. Les Tregs convertis en présence de TSLP-DCs ou de LPS-DCs ont également été injectés à des souris 8.3-NOD.RAG2[indice supérieur -/-]. Les résultats ont révélé que seuls les Tregs différenciés en présence de TSLP-DCs ont la capacité d’empêcher le développement du DT1. Nos travaux suggèrent que la diminution de la réponse Th1 et l’induction d’une population efficiente de lymphocytes Tregs font partie des mécanismes utilisés par les TSLP-DCs pour protéger les souris NOD contre le DT1. Réponse Th1/Th2 Tregs Souris NOD Cellules dendritiques TSLP Diabète de type 1

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