Modulation de la balance Th17/Treg par l’IL-27 et ICOS dans un modèle animal de Spondyloarthrite / Modulation of Th17/Treg balance by Il-27 and ICOS in a rat model of spondyloarthritis

Jouhault, Quentin

10 April 2017

La spondyloarthrite (SpA) est un rhumatisme inflammatoire chronique fréquent avec une prévalence de 0,43% en France, fortement associée à HLA-B27. À l’heure actuelle, il n’existe aucun traitement curatif et les mécanismes physiopathologiques impliqués restent méconnus. Afin de mieux comprendre les mécanismes immunologiques impliqués dans le développement de la SpA, nous avons étudié deux populations cellulaires clé, les cellules dendritiques (DC) et les lymphocytes T (LT) CD4+, chez le rat transgénique pour le HLA-B27 et la β2 microglobuline humaine (rat B27) qui développe spontanément tous les symptômes de la SpA. Il a été démontré que l’accumulation de lymphocytes T helper producteurs d’interleukine 17 (IL-17) pathogénique (lymphocyte Th17), et plusieurs défauts fonctionnels des cellules dendritiques (DCs) sont corrélés avec le développement de la SpA chez les rats B27.Nous nous sommes tout d’abord intéressés aux lymphocytes T régulateurs (Treg), dont le rôle est d’empêcher l’établissement d’une réponse immune pathogène pour l’hôte, chez le rat B27. Nous avons découvert que les Treg de rats B27 présentent un phénotype pro-inflammatoire (surexpression d’IL-17 et sous-expression d’IL-10 anti-inflammatoire), lié à la surexpression de la molécule ICOS. De plus, la sévérité des signes cliniques chez les rats B27 n’exprimant pas ICOS (rats B27 ICOS KO) est diminuée comparé aux animaux HLA-B27 sauvages. Cette protection partielle est corrélée à une réduction de la proportion de lymphocytes Th17. Ces résultats mettent en lumière le rôle majeur d’ICOS dans la physiopathologie de la SpA du rat.La deuxième partie de ce travail s’est concentrée sur les conséquences de la sous-expression d’IL-27 par les DC de rats B27, cytokine connue pour inhiber le développement des Th17. Nous avons observé que l’addition d’IL-27 exogène permet de diminuer la production d’IL-17 et d’augmenter la synthèse d’IL-10 anti-inflammatoire par les LT différenciés (T effecteurs et Treg) et les LT naïfs de rats B27 différenciés in vitro. De façon intéressante, l’IL-27 réduit également la synthèse d’IL-17 par les LT CD4+ circulants de patients atteints de SpA.Ces travaux démontrent pour la première fois le rôle clé de l’IL-27 et d’ICOS dans le contrôle de l’inflammation chez le rat B27 et suggèrent fortement que ces deux molécules sont de nouvelles cibles thérapeutiques prometteuses dans la SpA. / Spondyloarthritis (SpA) is a frequent chronic rheumatic inflammatory disorder with a prevalence of 0.43% in France and closely associated to HLA-B27. To date, there is no curative treatment and pathophysiological mechanisms involved in this pathology remain elusive. To better understand these mechanisms, we studied two crucial cell populations, dendritic cells (DC) and CD4+ T cells in rats transgenic for HLA-B27 and human β2 microglobulin (B27 rats) which spontaneously develop a phenotype closely resembling human spndyloarthritis. Previous studies demonstrated that accumulation of pathogenic IL-17 producing T cells (Th17 cells) and several function defects of DCs are correlated with SpA development in B27 rats.First, we focused on regulatory T cells, whose role is to prevent the establishment of pathogenic immune responses. We discovered that Treg from B27 rats have a pro-inflammatory phenotype. They overexpress IL-17 and underexpress anti-inflammatory IL-10, linked to ICOS overexpression. Furthermore, B27 rats knock-out for ICOS (B27 ICOS KO rats) have reduced severity of clinical symptoms compared to B27 ICOS WT rats. This protective effect is correlated with a reduced proportion of Th17 cells. These results highlight the crucial role of ICOS in rat SpA physiopathology.In the second part of this work we studied the consequences of IL-27 underexpression by B27 DC, a cytokine known to inhibit Th17 development. Addition of exogenous IL-27 reduces IL-17 and increases IL-10 productions by differentiated T cells (Teff and Treg) and by naive T cells polarized in vitro. Interestingly, IL-27 also reduces IL-17 production by circulating CD4+ T cells isolated from blood of SpA patients.This work demonstrate for the first time the key role of IL-27 and ICOS in the control of inflammation in B27 rats and highly suggest that these molecules may be new promising therapeutic targets in SpA.

SpA

IL-27

ICOS

Th17

Treg

SpA

IL-27

ICOS

Th17

Treg

Role of OX40-OX40L interactions in the immune response to solid organ allografts

Kinnear, Gillian

January 2013

Transplantation is the treatment of choice for end stage organ failure however current immunosuppressive therapies whilst effective at preventing acute allograft rejection, fail to prevent late graft loss due to chronic rejection and are associated with an increased risk of infection and malignancy. Therefore there is a clear unmet clinical need for improved strategies to prevent allograft rejection. OX40 is a member of the TNFR superfamily that has potent costimulatory properties. Although the impact of blockade of the OX40-OX40L pathway has been well documented in models of autoimmune disease, its effect on the rejection of allografts is less well defined. Therefore the aim of this thesis was to determine the impact of OX40 blockade on conventional and regulatory T cell responses to allografts. We found that activation of CD4+ and CD8+ naïve and memory T cells resulted in the induction of OX40 expression and that blockade of OX40-OX40L interactions partially inhibited the response of alloreactive T cells in vitro and prevented skin allograft rejection but did not result in the induction of tolerance. OX40 blockade was found to have no effect on the activation and proliferation of T cells but rather effector T cells failed to accumulate and migrate to skin allografts. This was shown to be the result of an enhanced degree of cell death amongst proliferating effector cells. In addition, blockade of OX40-OX40L interactions at a time of exposure to alloantigen resulted in a pool of Treg with an enhanced ability to suppress T cell responses to alloantigen in vitro and in vivo. Counter-intuitively, OX40 blockade was found to increase the potency of alloreactive Treg by promoting survival following re-activation. Finally, although OX40 blockade impacted both conventional and regulatory T cell responses, anti-OX40 administration did not promote skin or heart allograft survival in immunocompetent recipients and failed to synergise with blockade of other costimulatory molecules to prevent allograft rejection. In conclusion, these data demonstrate that blockade of OX40-OX40L interactions can attenuate naïve and memory T cell responses to alloantigen whilst promoting the survival of alloreactive Treg. Therefore, we propose that anti-OX40 would be a worthwhile adjunct to pre-existing strategies to induce tolerance.

616.07

Glucose Metabolism in CD4+ T cell Subsets Modulates Inflammation and Autoimmunity

Gerriets, Valerie

January 2014

<p>Understanding the mechanisms that control T cell function and differentiation is crucial to develop new strategies to modulate immune function and prevent autoimmune and inflammatory disease. The balance between effector (Teff; Th1, Th2 and Th17) and regulatory (Treg) T cells is critical to provide an appropriate, but not excessive, immune response and therapies to induce Treg or inhibit Teff are likely promising treatment strategies. It has recently become clear that T cell metabolism is important in both T cell activation and differentiation. T cells undergo a metabolic reprogramming upon activation and not all differentiated T cell subsets utilize the same metabolic fuels or programs.</p><p>These metabolic differences are not trivial, as T cell metabolism is tightly</p><p>regulated and dysregulation can lead to cell death or reduced immunity. An</p><p>understanding of the metabolic differences between Teff and Treg may lead to a new direction for treating inflammatory diseases by modulating the Teff:Treg balance through metabolic inhibition. Previous studies have shown that Teff express higher levels of the glucose transporter Glut1 than Treg, however the role of Glut1, and importantly, the cell-intrinsic role of glucose metabolism in T cell differentiation and inflammation was not previously examined. The work presented here examines the role of Glut1 in T cell differentiation. We show that effector CD4 T cells were dependent on Glut1 for proliferation and function both in vitro and in vivo. In contrast, Treg were Glut1-independent and capable of suppressing colitis in the absence of Glut1 expression.</p><p>Additionally, previous studies have shown broad metabolic differences between Teff and Treg, however the specific metabolic profiles of Teff and Treg are poorly understood. Here, Teff and Treg metabolism is examined to test if dependence on distinct metabolic pathways will allow selective targeting of different T cell populations. We show that pyruvate dehydrogenase kinase 1 (PDHK1) is differentially expressed in the T cell subsets and inhibition of PDHK1 selectively suppresses Th17 and promotes Treg differentiation and function. Because Teff and Treg have distinct metabolic profiles, we hypothesized that the Treg-­specific transcription factor FoxP3 may drive the Treg oxidative metabolic program. We therefore examined the role of FoxP3 in T cell metabolism and determined that FoxP3 promotes glucose and lipid oxidation and suppresses glycolytic metabolism. Importantly, we show that promoting glycolysis with transgenic expression of Glut1 inhibits Treg suppressive capacity. Together, these data suggest that FoxP3 drives an oxidative metabolic program that is critical to Treg function. Overall, this work examines the metabolic phenotypes and regulation of Teff and Treg and potential metabolic targets that could be used to treat autoimmune and inflammatory disease.</p> / Dissertation

Pharmacology

Immunology

CD4 T cells

Glucose metabolism

Th17

Treg

Characteristics of induced regulatory T cells and bystander suppression

Reynolds, Ben Christopher

January 2013

Regulatory T cells expressing the transcription factor Foxp3 have a critical role in the maintenance of tolerance to both self and innocuous exogenous antigens. Humans and mice die from overwhelming autoimmunity in the absence of Foxp3+ Treg whilst administration of regulatory T cells has shown promise therapeutically in ameliorating autoimmunity in several animal models. Regulatory T cells arise naturally in the thymus (nTreg) but may also be induced from naïve Foxp3- cells in the presence of TGF-β (iTreg), both in vitro and in vivo. This thesis focuses on in vitro generated mouse iTreg, testing the hypothesis that they are able to effect bystander suppression; iTreg activated by a given antigen are able to suppress other responding cells with different antigen reactivities. Chapter 3 details an in vitro assay system using iTreg and responder cells recognising different antigens (TCR transgenic cells). Evidence for bystander suppression is presented and that did not require the presence of iTreg-relevant antigen but did require iTreg-relevant MHC Class II. The kinetics of iTreg suppression are discussed, with evidence presented that iTreg exert their effects early in co-culture. Chapter 4 identifies the production of three pro-inflammatory cytokines by iTreg - IFN-γ, GM-CSF, and TNF. These were not involved in the in vitro suppressive mechanism, but early abrogation of TGF-β signalling did inhibit suppression. Chapter 5 describes the in vivo function of iTreg under various experimental protocols. iTreg did not limit initial proliferation of naïve T cells in response to antigen but did limit the development of effector cells producing pro-inflammatory cytokines. Exposure to a pro-inflammatory environment in vivo led to iTreg producing IFN-γ and TNF, but not GM-CSF. This could be replicated in vitro by exposure to IL-6, IL-12 or IL-27. Finally, evidence for bystander suppression by iTreg in vivo is presented, with a reduction in effector cells producing pro-inflammatory cytokines shown in an allergic airways diease model.

616.97

Avaliação do papel das células T reguladoras na imunomodulação da paracoccidiodomicose pulmonar estabelecida. / Immunomodulatory function of regulatory T cells during pulmonary paracoccidioidomycosis.

Galdino, Nayane Alves de Lima

11 May 2017

Tem sido demonstrada a grande importância dos linfócitos T reguladores (Treg) na manutenção da tolerância e no controle da resposta imune em infecções. Na paracoccidioidomicose, micose sistêmica causada pelo Paraccoccidioides brasiliensis (Pb), a atuação das células Treg tem sido estudada. Utilizando o modelo murino DEREG, foram realizadas depleções com toxina diftérica (DT) na doença estabelecida. A gravidade da doença foi avaliada 6 e 10 semanas pós infecção com Pb através da carga fúngica nos tecidos, desenvolvimento de imunidade TCD8+ e TCD4+ e histopatologia. Animais DEREG tratados com a DT apresentaram menor número de células Treg, menor carga fúngica no pulmão, fígado e baço e redução dos granulomas comparados ao controle (PBS). Observou-se também um maior influxo de células TCD4+ e TCD8+ efetoras nos pulmões dos camundongos tratados com DT e aumento na produção de citocinas dos tipos Th1 e Th17. Portanto, demonstramos efeitos benéficos da depleção de Treg na PCM já estabelecida, caracterizado pela menor carga fúngica e maior ativação da imunidade celular. / The great importance of regulatory T lymphocytes (Treg) has been demonstrated in maintaining tolerance and not controlling the immune response in infections. In paracoccidioidomycosis, systemic mycosis caused by Paraccoccidioides brasiliensis (Pb), the action of Treg cells has been studied. Using the DEREG murine model, depletions were performed with diphtheria toxin (DT) in the established disease. The severity of the disease was assessed 6 and 10 weeks post-infection with fungal load in tissues, development of TCD8+ and TCD4+ immunity and histopathology. DEREG animals treated with DT presented lower number of Treg cells, lower fungal load in the lung, liver and spleen and reduction of granulomas compared to control (PBS). There was also a greater influx of effector CD4+ and TCD8+ cells in the lungs of DT-treated mice and increased production of Th1 and Th17 cytokines. Therefore, we demonstrated beneficial effects of Treg depletion on PCM already established, characterized by lower fungal load and greater activation of cellular immunity.

DEREG

DEREG

Immunomodulation

Imumomudulação

Paracoccidioidomicose

Paracoccidiomycosis

T reguladoras

Treg cells

Lymphocytes T régulateurs et Transplantation hépatique : modulation de l'activité des lymphocytes T régulateurs CD4+CD25+ par les drogues immunosuppressives / Regulatory T cells and Liver Transplantation : modulation of CD4+CD25+ regulatory T cell activity by immunosuppressive drugs

Miroux, Céline

11 February 2011

Lorsque l'hépatite chronique C a occasionné une cirrhose et que, du fait de ses complications, le pronostic vital est en jeu au terme de quelques mois, la transplantation hépatique (TH) représente l'unique traitement efficace,. Malheureusement, la récidive quasi-systématique de la cirrhose C, après la transplantation hépatique, est la principale barrière à la survie du greffon. De nombreux facteurs ont été associés à la sévérité des récidives, et une implication des lymphocytes T régulateurs CD4+CD25+ (Treg) et de certains immunosuppresseurs a été suggérée. Par ailleurs, le patient transplanté peut également être confronté au problème du rejet aigu d’allogreffe, qui est partiellement contrôlé par les Treg et par une thérapie immunosuppressive rigoureuse. Paradoxalement, plusieurs études ont suggéré que certains immunosuppresseurs sont moins efficaces que d’autres dans la prophylaxie du rejet d’allogreffe et peuvent même être associés à des épisodes de rejet plus fréquents. Il existait donc un besoin urgent d’évaluer le rôle joué par les immunosuppresseurs sur les Treg dans la récidive de la fibrose C et dans le rejet du greffon. Dans un premier temps, nous avons confirmé l’implication des Treg dans la progression de la récidive de l’hépatite C. En effet, les marqueurs associés à cette population sont surexprimés dans le foie et dans le sérum de patients, 1 an et 5 ans après la TH, et ce proportionnellement à la sévérité de la récidive. Dans un deuxième temps, nous avons évalué l’effet d’immunosuppresseurs utilisés après la TH (cyclosporine A (CsA), tacrolimus, rapamycine et mycophénolate mofétif) sur l’activité des Treg. Nous avons ainsi montré que seule la CsA a une action inhibitrice sur l’activité des Treg, et ce, uniquement aux doses thérapeutiques de 20 et 40 ng/mL (doses administrées au long terme, 5 ans après la TH). Cette inhibition de l’activité des Treg par la CsA ne modifie pas leur phénotype (expression protéique ou génique), mais conduit à la sécrétion d’IL-2 et d’IFN-&#947; par les Treg, cytokines de la voie Th1. Le mécanisme immunosuppresseur de la CsA étant d’inhiber la transcription de l’IL-2, via la voie calcineurine/N-FAT, nous avons tenté d’identifier si elle agissait sur les Treg par cette voie ou par une voie indépendante de la calcineurine. Deux observations ont renforcé l’hypothèse d’un mode d’action calcineurine/N-FAT - indépendant : (i) le fait que le tacrolimus, qui a le même mécanisme immunosuppresseur que la CsA, n’inhibe pas l’activité des Treg et (ii) le fait que NIM811, un analogue de la CsA n’agissant pas sur la voie de la calcineurine, inhibe l’activité des Treg aux mêmes doses que la CsA. Cette hypothèse a par ailleurs été directement confirmée par l’absence de modification du profil de déphosphorylation du facteur de transcription N-FAT, en présence de CsA. Enfin, bien que les corticoïdes soient connus pour préserver l’activité des Treg et induisent leur prolifération in vitro, ils sont incapables de reverser l’effet inhibiteur de la CsA sur les Treg. Nos résultats suggèrent donc qu’une dose thérapeutique de CsA inhiberait l’activité des Treg CD4+CD25+. Les cellules T régulatrices jouent un rôle important dans la tolérance du greffon et dans la sévérité des récidives après la TH, leur inhibition par la CsA pourrait alors favoriser le rejet du greffon et diminuer la sévérité des récidives. Ces résultats sont importants dans la mesure où la transplantation hépatique est à l’heure actuelle la seule alternative de survie au stade du carcinome hépatocellulaire, et qu’il n’existe aucun traitement efficace contre le rejet du greffon ou la récidive de l’hépatite C. Le traitement immunosuppresseur idéal n’existe pas, cependant il ne devrait pas augmenter l’activité suppressive des Treg, au risque de favoriser la récidive de l’hépatite C, ni inhiber cette activité, au risque de favoriser le rejet du greffon. / Liver transplantation (LT) remains the only effective therapeutic approach for cirrhosis related HCC patients. Inevitable hepatitis C virus (HCV) recurrence after liver transplantation is a major barrier to the survival of a transplanted liver. It may be promoted by immunosuppression and the emergence of CD4+CD25+ regulatory T cells (Treg). Transplanted patients are also been confronted to allograft rejection, which is partially controlled by Treg cells and the administration of an immunosuppressive therapy. However, some immunosuppressive drugs have been associated with more frequent graft rejection. In this context, it was important to assess the effect of immunosuppressive drugs on regulatory T cells, both in HCV recurrence and graft rejection. We have first confirmed the implication of Treg cells in hepatitis C recurrence progression. Indeed, regulatory T cells markers are over-expressed, 1 and 5 years after LT, both in the liver and in periphery and proportionally of the recurrence severity. In a second time, we have analysed the effect of immunosuppressive drugs used after LT (cyclosporine A (CsA), tacrolimus, rapamycine and mycophenolate mofetil) on regulatory T cell activity. We have shown that only low concentrations of CsA (20 and 40 ng/mL) inhibit regulatory T cell activity (these doses are used 5 years after LT). It seems that CsA does not affect regulatory T cell phenotype (protein and gene expression) but lead to a secretion of Th1 cytokines in Treg cells : IL-2 and IFN-&#947;. As CsA, is known to inhibit IL-2 transcription through the calcineurin/N-FAT pathway, we have tried to identify if CsA inhibits Treg cells via this pathway or via a calcineurin -independent pathway. Two observations have confirmed the hypothesis of a calcineurin -independent pathway : (i) tacrolimus, which have the same immunosuppressive mechanism as CsA, could not inhibit Treg activity, and (ii) NIM811, a calcineurin - independent CsA analog, inhibits regulatory T cell activity at the same concentrations than CsA. Moreover, this hypothesis has been directly confirmed by the absence of of modification of the N-FAT dephosphorylation profile. Lastly, corticoids, known to preserve Treg activity, could induce Treg cell proliferation in vitro. However, they could not reverse the inhibitory effect of CsA on Treg cells. Our results suggest that a therapeutical dose of CsA could inhibit CD4+CD25+ regulatory T cell activity. Treg cells play an important role in graft tolerance and hepatitis C recurrence after LT, so their inhibition by CsA could favour graft rejection and decrease recurrence severity. These results are important, as liver transplantation iscurrently the only survival alternative for HCC related patients. The ideal immunosuppressive therapy does not exist, but it would not increase Treg activity, which may promote hepatitis C recurrence, neither abrogate this activity due to the risk of graft rejection.

Treg

Hépatite C

Transplantation du foie

Transplanted liver

Hepatitis C

Veränderungen des fetalen Thymus bei Chorioamnionitis im Schafmodell / Thymic changes after chorioamnionitis in fetal sheep

Glogger, Kerstin Marisa

January 2012

Regulatorische T-Lymphozyten differenzieren sich im fetalen Thymus unter dem Einfluss des Transkriptionsfaktors FoxP3. Sie sind für die Aufrechterhaltung des Gleichgewichts des Immunsystems wichtig. Es wurde untersucht ob eine Chorioamnionitis, induziert durch intraamniotische Endotoxingabe, die fetale Thymusentwicklung beeinflusst. Den Mutterschafen wurde fünf Tage, zwei Tage, einen Tag oder fünf Stunden vor der Sectio cesarea 10mg Endotoxin intraamniotisch verabreicht. Die Sectio cesarea wurde bei einem Gestationsalter von 123 Tagen durchgeführt. Der entnommene Thymus wurde gewogen, Nabelschnurblutlymphozyten und Plamakortisolwerte wurden bestimmt. Glukokortikoidrezeptoren, aktivierte Caspase-3-, Ki67-, PCNA-, NFkB- und FoxP3-positive Zellen wurden immunohistochemisch nachgewiesen. Das Thymusgewicht war im Verhältnis zum Körpergewicht der Lämmer nach intraamniotischer Endotoxingabe zu allen gemessenen Zeitpunkten verringert. Die zirkulierenden Lymphozyten im Nabelschnurblut nahmen einen Tag nach Endotoxingabe um 40% ab. Die Endotoxingabe führte zu einem vorübergehenden Anstieg der Plasmakortisolwerte, zu einer Verdoppelung NFkB positiver Zellen und zu einer Abnahme Foxp3 positiver Zellen in der Thymusrinde einen Tag nach Endotoxingabe. Die intraamniotische Verabreichung eines Endotoxins führte im Schafmodell zu Veränderungen im fetalen Thymus. / Regulatory T-lymphocytes differentiate in the fetal thymus under the control of the transcription factor FoxP3. T-lymphocytes mediate homeostasis of the immune system. The objective was whether chorioamnionitis, caused by endotoxin,would modulate fetal thymus development. An intaamniotic injection of 10mg endotoxin was given to the sheep five days, two days, one day or five hours before delivery at 123 gestation days. Thymus weight, cord blood lymphocytes and plasma cortisol were measured. Glucocorticoid receptor-, activated caspase-3-, Ki67-, proliferating cell nuclear antigen-, nuclear factor kB-, and FoxP3-positive cells were immunohistochemically evaluated. Thymus-to-body weight ratios were reduced in all endotoxin groups. There was a decrease of circulation lymphoctes after intraamniotic endotoxin exposure by 40% after one day. Plasma cortisol concentration increased transiently, nuclear factor kB positive cells in thymic cortex doubled and FoxP3 positive cells were reduced one day after endotoxin exposure. Intraamniotic exposure to endotoxin induced thymic changes in fetal sheep.

Chorioamnionitis

Thymus

Frühgeburt

T-Lymohozyten

Treg

FoxP3

ddc:610

Einfluss der sauren Sphingomyelinase auf anti-virale T-Zellantworten im Masernvirus-Infektionsmodell / Role of the acid sphingomyelinase in anti-viral T cell responses in a measles virus infection model

Hollmann, Claudia Beate

January 2017

Die saure Sphingomyelinase (Asm), ein Enzym des Sphingolipidmetabolismus, spaltet Sphingomyelin zu Ceramid und Phosopocholin. Aktiviert wird die Asm unter anderem durch Stimulation des CD28 Rezeptors. CD28 Signale werden auch für die Aktivierung von konventionellen T-Zellen (Tconv) und für die Kostimulation benötigt und sind essentiell für die Differenzierung von regulatorischen T-Zellen (Treg) im Thymus und deren Erhalt in der Peripherie. Wir konnten zeigen, dass sich Tconv und Treg Zellen hinsichtlich der Asm unterscheiden. Treg haben eine höhere "basale" Asm Aktivität, widergespiegelt im höheren Ceramidgehalt und haben eine niedrigere Lipidordnung als Tconv Zellen. Die Abwesenheit der Asm in defizienten Mäusen bewirkt einen relativen Anstieg der Treg-Frequenz innerhalb der CD4+ T-Zellen. Außerdem führt die Asm-Defizienz in Treg Zellen zu einer erhöhten Umsatzrate des immunsupprimierenden Moleküls CTLA-4 und zu einer verstärkten Suppressivität von Treg Zellen aus Asm-/- Mäusen gegenüber Wildtyp Zellen. Ein Anstieg in der Treg-Frequenz, äquivalent zur genetischen Defizienz, kann auch durch Inhibition der Asm, d. h. durch Wirkstoffe wie Amitriptylin und Desipramin erreicht werden. Es konnte gezeigt werden, dass die Inhibitorbehandlung die absolute Anzahl der Tconv Zellen selektiv verringert, da Treg Zellen gegenüber dem Asm Inhibitor-induzierten Zelltod resistenter sind. Mechanistisch erklärbar sind die Unterschiede gegenüber den proapoptotischen Inhibitoreffekten zwischen Tconv und Treg Zellen dadurch, dass Treg Zellen durch die Anwesenheit von IL-2 geschützt sind. In Abwesenheit von IL-2 sterben die Treg Zellen ebenfalls. Die gezielte Veränderung des Verhältnisses von Treg zu Tconv durch den Einsatz von Asm-inhibitorischen Medikamenten kann hilfreich bei der therapeutischen Behandlung von inflammatorischen- und Autoimmunerkrankungen sein. Inwiefern die Asm für die Funktion von T-Zellen in der anti-viralen Immunantwort entscheidend ist, wurde im Masernvirus-Infektionsmodell näher untersucht. In Asm-/- Mäusen und Amitriptylin-behandelten Mäusen konnte gezeigt werden, dass in Abwesenheit der Asm die Kontrolle der Masernvirusinfektion verschlechtert ist. Treg sind auch hier von entscheidender Bedeutung, da die Asm-abhängige, verstärkte Masernvirusinfektion bei Fehlen der Asm nur in Gegenwart von Treg auftritt. In der akuten Phase gibt es in Asm-/- Mäusen weniger masernvirusspezifische T-Zellen und dadurch eine verringerte Beseitigung der Viruslast. In der chronischen Phase ist die Anzahl masernvirusspezifischer T-Zellen zwischen WT und Asm-/- Mäusen vergleichbar. In Letzteren ist allerdings die Anzahl und Frequenz von T-Zellen im Gehirn infizierter Mäuse noch deutlich erhöht, was die verstärkte Maserninfektion widerspiegelt. Zusammenfassend zeigt sich, dass die Asm die Funktion von Treg moduliert und einen Einfluss auf das Verhältnis von Tconv und Treg zueinander hat. Im Masernvirus-Infektionsmodell kann die Veränderung des Tconv zu Treg Verhältnisses in Abwesenheit der Asm ursächlich für die verringerte Viruskontrolle sein. Die Asm Inhibitor-induzierte Treg-Aktivierung und die Beeinflussung des Treg zu Tconv Verhältnisses können wiederum für therapeutische Zwecke genutzt werden, wie beispielsweise bei Multipler Sklerose und Rheumatoider Arthritis. / The acid sphingomyelinase (Asm), an enzyme of the sphingolipid metabolism, hydrolyses sphingomyelin into ceramide and phosphocholine. Besides other stimuli the Asm is activated by ligation of the costimulatory molecule CD28. CD28 signaling is necessary to activate conventional T-cells (Tconv) and is crucial for the differentiation and maintenance of thymus-derived regulatory T-cells (Treg). We could demonstrate that Tconv and Treg cells differ with respect to Asm activity. Treg cells have an increased "basal" Asm activity resulting in an elevated level of ceramide and show a decreased lipid order compared to Tconv cells. The absence of Asm leads to a relative increase in Treg frequency among CD4+ T-cells in Asmdeficient mice. Furthermore, the Asm deficiency results in an increased turnover rate of the immunosuppressive molecule CTLA-4 and strengthens the suppressive capacity of Treg cells from Asm-/- mice compared to wild type Treg cells. An increase of the Treg cell frequency, equivalent to that seen with genetic deficiency, can be achieved by drugs like amitriptyline and desipramine too. The inhibitor treatment selectively decreases the absolute numbers of Tconv cells as Treg cells are more resistant towards Asm inhibitor induced cell death. The mechanistic explanation for the difference concerning the proapotptotic effects of Asm inhibitors between Treg and Tconv cells is that Treg cells are protected by IL-2. In the absence of IL-2 Treg cells die too. Therapeutically shifting the balance of Treg and Tconv cells by Asminhibiting drugs can be beneficial in inflammatory and autoimmune diseases. Whether the Asm is necessary for the function of T-cells during anti-viral immune responses was investigated in a measles virus infection model. In Asm-/- mice and amitriptyline treated mice control of the measles virus was impaired. Treg cells are of critical relevance as the Asm dependent boost in measles infection was only visible in the presence of Treg cells. During the acute phase of infection less measles virus specific T-cells were present leading to a decreased clearance of virus from the brains of Asm-/- mice. In the chronic phase the number of measles virus specific Tcell was comparable between wt and Asm-/- mice. But in the latter the number and frequency of T-cells in brains of infected mice was increased, which mirrors the enhanced measles virus infection. In conclusion, the Asm modulates the function of Treg cells and influences the Treg- Tconv ratio. The changed Treg-Tconv ratio in the absence of Asm expression might be responsible for the reduced virus control in the measles virus infection model. Additionally, the Asm inhibitor induced Treg cell activation and its effects on the Treg- Tconv ratio can be used for therapeutical approaches in diseases like multiple sclerosis or rheumatoid arthritis.

saure Sphingomyelinase

Treg

Masernvirus

Sphingomyelin

Ceramid

ddc:570

Alterações transcricionais em células dendríticas e células T CD4+ humanas em resposta ao Paracoccidioides brasiliensis

Fernandes, Reginaldo Keller.

January 2017

Orientador: Ângela Maria Victoriano de Campos Soares / Resumo: A paracoccidioidomicose (PCM) é uma micose sistêmica endêmica na América Latina, principalmente no Brasil, Argentina e Venezuela, e que promove um importante impacto na saúde pública. Seu agente etiológico é um fungo termodimórfico pertencente ao gênero Paracoccidioides que compreende o Paracocidioides brasiliensis (Pb) e suas espécies crípticas S1, PS2, PS3 e Paracoccidioides lutzii. As consequências da interação do fungo com as células da resposta imune inata, tais como as células dendríticas (DC), destacando a capacidade destas células para instruir a resposta imune adaptativa, não são totalmente compreendidas. Em estudo anterior, descobrimos que DCs não maturam em resposta ao desafio com Pb. Esta falha foi associada à inibição de PGE2 nas DCs pelo fungo, uma vez que este eicosanóide é um fator importante para a maturação dessas células. Na tentativa de melhor entender este processo e suas conseqüências para a instrução da resposta adaptativa CD4, nós buscamos analisar o perfil transcricional de DCs em resposta ao Pb assim como o de linfócitos CD4+ cocultivados com DCs sensibilizados com o fungo. Para estas análises, nós utilizamos a metodologia de RNA-seq, que permitiu o sequenciamento de alto rendimento e a quantificação sistemática de expressão gênica. Após as análises, os genes que foram regulados positivamente ou negativamente em ambas as células (DCs e CD4) foram listados e as funções das proteínas codificadas por eles, identificadas. A análise geral das proteínas co... (Resumo completo, clicar acesso eletrônico abaixo) / Doutor

Dendritic cells

Paracoccidioides brasiliensis.

Treg cell

Transcriptional change

Capacidade de antígenos de Schistosoma mansoni em alterar in vitro o fenótipo de monócitos e linfócitos na leishmaniose cutânea

Bafica, Aline Michelle Barbosa

11 December 2012

Submitted by Hiolanda Rêgo (hiolandarego@gmail.com) on 2015-03-26T12:03:49Z No. of bitstreams: 1 Tese_ICS_Aline Michelle Barbosa Bafica.pdf: 3028179 bytes, checksum: 666e7950c3b0e2cf32d5a4eddeb77dfe (MD5) / Made available in DSpace on 2015-03-26T12:03:49Z (GMT). No. of bitstreams: 1 Tese_ICS_Aline Michelle Barbosa Bafica.pdf: 3028179 bytes, checksum: 666e7950c3b0e2cf32d5a4eddeb77dfe (MD5) / Introdução: Neste estudo, nós avaliamos os efeitos de alguns antígenos do S. mansoni sobre a resposta imune induzida pelo antígeno solúvel de Leishmania (SLA) em células de pacientes com LC. Métodos: CMSP foram estimuladas in vitro com SLA e cultivadas na presença ou ausência dos antígenos recombinantes do tegumento do S. mansoni, Sm29 e SmTSP-2 e também do PIII, uma fração do antígenos solúvel do verme adulto do S. mansoni. As citocinas do padrão Th1, Th2 e regulatória foram medidas nos sobrenadantes das culturas, utilizando-se a técnica de ELISA sanduíche. Adicionalmente, CMSP foram marcadas com anticorpos conjugados a fluorocromos para a avaliação do fenótipo destas células, utilizando-se os anticorpos para marcação de CD4, CD8, CD25, CD28, CTLA-4 e Foxp3 em linfócito T e CD14, CD16, HLA-DR, CD80 e CD86 em monócitos. Para tanto se utilizou a técnica de citometria de fluxo e as análises foram feitas pelo programa FlowJo. Resultados: A adição dos antígenos do S. mansoni às culturas de CMSP resultou na redução dos níveis de IFN-γ em 37 a 50% dos pacientes. Embora, em menor extensão, os antígenos também foram capazes de diminuir a produção de TNF. Comparando os grupos de pacientes que tiveram ou não redução na produção de IFN-γ e TNF em culturas estimuladas com SLA, pela presença dos antígenos de S. mansoni, observou-se que não houve diferença significativa no número e tamanho das lesões e nem nos níveis basais de IFN-γ e TNF. Não houve também diferença significativa nos níveis de IL-10 e IL-5 em resposta aos antígenos de S. mansoni entre os grupos que apresentaram ou não redução na produção de IFN-γ e TNF em resposta aos antígenos do S. mansoni. Adicionalmente, foi observado que o uso do rSm29 nas culturas de CMSP de pacientes com LC resultou em diminuição da expressão de HLA-DR em monócitos não-clássicos (CD14+CD16++), no entanto a adição de PIII diminuiu a expressão desta molécula em monócitos clássicos (CD14++CD16-) e intermediários (CD14++CD16+). A adição do PIII e do rSmTSP-2 resultou na regulação da expressão de CD80 em monócitos não-clássicos e da expressão de CD86 em monócitos intermediários, respectivamente. Os antígenos rSmTSP-2 e PIII aumentaram a expressão de CTLA-4 em células TCD4+ e também expandiram a frequência de células regulatórias TCD4+CD25highFoxp3+. Conclusão: Os antígenos usados neste estudo, modularam a resposta pro-inflamatória induzida pelo SLA in vitro em um grupo de pacientes com LC, e os antígenos rSmTSP-2 e PIII foram capazes de diminuir o estado de ativação de monócitos e também aumentar a expressão de moléculas moduladoras em linfócitos T.

Ciências da Saúde

Antígenos de Schistosoma mansoni

Leishmaniose

Citocinas

Células Treg

Monócitos