Assessment of Canine Immunity using Computational and Flow Cytometric Approaches

Weaver, Kriston

17 August 2013

The Affymetrix GeneChip® Canine Genome 2.0 microarray is re-annotated using AgBase tools, up-to-date ID mapping and GO annotations associated with publicly available gene products updated on this array. This re-annotation makes the array more useful for researchers using the canine microarray for biological discovery. We use flow cytometry to determine if liposomal clodronate (LC) is an acceptable alternative to surgical splenectomy to facilitate detection of subclinical infection with Babesia canis in potential blood donor greyhounds. Our study shows that LC is not a reliable means of exposing babesiosis in greyhounds with a recent history of infection. We evaluate the effect of depletion of antigen presenting cells on regulatory T cells (Tregs) in dogs treated with LC by multi-color flow cytometry. We demonstrate that LC promotes increases in the CD4+CD25+FOXP3+ Tregs affecting mostly the CD4+CD25lowFOXP3+ Tregs subset suggesting a role of monocytes in naïve T cell priming and differentiation into Tregs.

re-annotation

Affymetrix

greyhound

babesiosis

Babesia

LC

lipsomal clodronate

Tregs

regulatory T cells

Studies on T-cell Properties during Coccidiosis and a Vitamin E Supplement to an<i> in ovo</i> Coccidiosis Vaccine

Walston, Matthew W. S.

January 2014

No description available.

Animal Sciences

coccidiosis

chickens

vitamin e

tregs

regulatory t cells

in ovo

cytokines

TRPM4, a non selective cation-permeable channel regulates Foxp3+ regulatory T cells suppressive function and survival trough modulating calcium influx / TRPM4, le canal cationique non-selective régule la fonction suppressive et la survie des lymphocytes T régulateurs Foxp3+ en régulant l'influx calcique

Yang, Heng

05 October 2012

TRPM4, un canal cationique non-sélective activé par le Ca2+ intracellulaire, est un acteur moléculaire important impliqué de la régulation du signal calcique et l’activation des lymphocytes T conventionnels mais son rôle dans la fonction des lymphocytes T régulateurs (Tregs Foxp3+) reste inconnu. Dans un modèle de souris transgéniques dans lequel le gène Trpm4 a été sélectivement invalidé dans la population des Tregs Foxp3+ (souris Foxp3(YFP)Cre+Trpm4flox/flox), nous avons démontré dans différents modèles in vivo d’inflammation aiguë et chronique que TRPM4 contrôle la fonction suppressive et la mort de ces cellules. Dans le modèle de fibrosarcome induit par le méthylcholanthrène (3-MCA) ou implanté (modèle MCA205), dans lequel le rôle des Tregs est documenté, l’absence de fonction de TRPM4 induit une diminution significative de l’incidence et de la croissance tumorale. Dans l’environnent inflammatoire chronique et hypoxique de ces tumeurs, l’expression de TRPM4 protège les Tregs infiltrant la tumeur de la mort cellulaire induit par l’ATP extracellulaire et stimule ainsi le développent et la progression tumorale. L’absence d’expression de TRPM4 dans les Tregs stimule la réponse anti-tumorale médiée par l’IFNg et induit la régression des tumeurs. En conclusion, en inhibant l’entrée de Ca2+ extracellulaire, TRPM4 régule négativement les fonctions suppressives des Tregs et protège ces cellules de la mort cellulaire induite par l’activation. / TRPM4, a Ca2+-activated non-selective cation ion channel is an important regulator of Ca2+ signaling and cell activation in conventional T cells, but its role in Foxp3+ Tregs function remains unknown. Using a model in which Trpm4 gene was selectively invalidated in Foxp3+ Tregs population (Foxp3(YFP)Cre+Trpm4flox/flox mice) we have shown in different in vivo models of acute and chronic inflammation that TRPM4 is an important regulator of Tregs functions and survival. In a model of primary carcinogenesis induced by methylcholantrene (3-MCA) or implanted fibrosarcoma (MCA205 model), in which Tregs role has been documented, lack of TRPM4 expression and function induced significantly decreased incidence and tumor growth. We found that within chronic inflammatory and hypoxic tumor microenvironment, TRPM4 protected Tregs from ATP-induced cell death and therefore promoted tumor initiation and progression. In contrast, TRPM4 deficiency in Tregs favored IFN-g-mediated spontaneous anti-tumor immune response. Thus, through inhibiting Ca2+ influx, TRPM4 acts as a negative modulator of Tregs suppressive functions and protects Tregs from activation-induced cell death.

Foxp3+ Tregs

TRPM4

Flux calcique

Réponse immunitaire

Réponse anti-tumorale

Immunorégulation

ATP

Mort cellulaire

Foxp3+ Tregs

TRPM4

Calcium influx

Immune response

Immune regulation

Anti-tumor response

ATP

Cell death

Impact des trichothécènes sur l'immunité des muqueuses et utilisation de Lactobacillus sobrius comme moyen de lutte microbiologique contre ces mycotoxines / Trichothenes' impacts on immunity of mucosa and the using of Lactobacillus sobrius bacteria to counteract the effect of these mycotoxins

Seeboth, Julie

25 October 2013

Les mycotoxines sont des métabolites secondaires des moisissures qui peuvent naturellement contaminer de nombreux supports (céréales, fruits, papiers peints, compost). Dans ces travaux de thèse, nous avons focalisé notre intérêt sur deux mycotoxines produites principalement par les champignons du genre Fusarium, appartenant toutes deux au même groupe des trichothécènes, le déoxynivalénol (DON) et la toxine T-2 (T-2). Les objectifs de cette thèse ont été de déterminer les effets de ces deux toxines sur la mise en place des réponses immunitaires au sein de la muqueuse respiratoire et intestinale. L’ensemble de ces études a été réalisé chez le porc, espèce cible de ces contaminants et animal modèle pour l’Homme. Les résultats de ces travaux ont montré que ces deux toxines affectent la réponse immunitaire. Au niveau du tractus respiratoire, une faible dose de toxine T-2 altère l’activation des macrophages alvéolaires lorsqu’ils sont stimulés par les agonistes des TLRs -4, -2/6 (lipopolysaccharides et acides lipoteichoïques, respectivement) en diminuant la synthèse du composé antimicrobien NO et des cytokines pro-inflammatoires IL-1β et TNF-α. Cette immunosuppression pourrait alors conduire à une susceptibilité plus accrue des porcs à des infections opportunistes. Au niveau du tractus intestinal, à l’état basal, nous avons mis en évidence que le DON comme la toxine T-2 induit une forte réponse inflammatoire innée associée à la stimulation de la voie IL-17 en inhibant le développement des cellules T régulatrices. Des études mécanistiques ont permis de déterminer que les cytokines associées à la voie IL-17 suite à une exposition aux trichothécènes, sont produites par une des sous-populations de cellules T innées, les cellules Tγδ productrices d’IL-17. La troisième partie de ce travail a porté sur l’utilisation de la souche Lactobacillus sobrius DSM 16698T dans le but de lutter contre les effets immunomodulateurs générés lors d’une exposition aux trichothécènes. Les résultats de ce travail ont montré que cette souche bactérienne est capable de réduire les effets inflammatoires IL-17 et de rétablir les paramètres impliqués dans les fonctions de la barrière intestinale, suite à une exposition ex vivo et in vivo au DON. En revanche, cette souche a peu d’effet contre la toxine T-2. L’ensemble de ce travail de thèse suggère donc qu’une exposition à de faibles doses de trichothécènes pourrait accroître la susceptibilité des animaux aux perturbations de nature infectieuse ou inflammatoire. / Mycotoxins are fungi secondary metabolites that can contaminate a lot of environments worldwild such as cereals, fruits, wallpapers, and compost heaps. Throughout this phD work, we focused on two mycotoxins mainly produced by Fusarium species, both belonging to the trichothecenes group: the deoxynivalenol (DON) and the T-2 toxin (T-2). The aims of this study were to determine the effects of these two toxins on the immune response implementation in respiratory and intestinal mucosa. Studies were performed on swine being a target species of these contaminants and a model species for Humans. The results of these works proved that these two mycotoxins can affect the immune response. In the respiratory tract, a low dose of T-2 toxin alters the activation of the alveolar macrophages when they are stimulated by the agonists of TLRs -4 and -2/6 (lipopolysaccharides and lipoteichoic acids, respectively). This alteration is due to the decrease of the synthesis of the anti-microbial compound NO and the pro-inflammatory cytokines such as IL-1β and TNF-α. This immunosuppression can induce the emergence of opportunist infections in pig. In the intestinal tract, in background level, we demonstrated that DON as well as T-2 toxin induces a strong inflammatory immune response associated with stimulation of IL-17 pathway by inhibiting of the development of regulatory T cells. Mechanistic studies were used to determine the production origin of the cytokin associated to the IL-17 pathway. This cytokine is produced by one of the subpopulations of Tregs, the Tγδ cells IL-17 producing when exposed to trichothecenes. The third part of this work was about the use of Lactobacillus sobrius DSM 16698T strain to counteract the immunomodulatory effects induced after trichothecen exposure. The results of this study showed that this bacterial strain is able to reduce IL-17 inflammatory effect and is also able to re-etablish the parameters involved in the intestinal barrier functions in ex vivo and in vivo response to DON. Nevertheless, this strain is less effective against the T-2 toxin. Taken together, results of this phD suggest that an exposure to low doses of trichothecens could be intensify the susceptibility of animal to infectious or inflammatory disease.

Déoxynivalénol

Toxine T-2

Muqueuses respiratoire et intestinale

Réponses immunitaires

Homéostasie

Balance IL-17/Tregs

Bactérie commensale

Porc

Maladies inflammatoires intestinales

Deoxynivalenol

T-2 toxin

Respiratory and intestinal mucosa

Immune responses

Homeostasis

IL-17/Tregs balance

Commensal bacteria

Pig

Intestinal bowel disease

A sinalização de TGF-&#946; envolvida na expressão de CD39 em células T reguladoras está associada com a eficácia terapêutica do metotrexato na artrite reumatóide / TGF-? signaling involved in the CD39 expression on regulatory T cells is associated with therapeutic efficacy of the methotrexate in rheumatoid arthritis

Peres, Raphael Sanches

28 September 2016

A Artrite Reumatóide (AR) é uma artropatia autoimune multifatorial com etiologia desconhecida que afeta aproximadamente 1% da população adulta. A estratégia padrão para o tratamento da AR consiste na administração de baixas doses de Metotrexato (MTX), cujo efeito anti-inflamatório está relacionado com a manutenção dos níveis elevados de adenosina (ADO) extracelular. No entanto, uma parte considerável dos pacientes com AR é refratária ao tratamento com MTX e o mecanismo pelo qual este fenômeno ocorre ainda não está totalmente esclarecido. Neste contexto, o presente estudo descreveu que a eficácia terapêutica ao MTX está associada com a expressão em células Tregs da ectoenzima CD39, cuja função biológica é a geração de ADO extracelular via metabolização do ATP. Especificamente, através da realização de um estudo longitudinal, observamos que pacientes respondedores ao MTX (R-MTX) apresentam uma expansão de células Tregs circulantes expressando CD39 após o tratamento com MTX. Por outro lado, identificamos que pacientes não respondedores ao MTX (UR-MTX) possuem uma redução da expressão de CD39 em células Tregs, o que culmina em um comprometimento das suas funções supressoras. Ainda, demonstramos que a expressão de CD39 em células Tregs é um biomarcador apto em predizer a resposta terapêutica ao MTX, visto que pacientes UR-MTX apresentam uma expressão reduzida de CD39 em Tregs mesmo antes do início do tratamento com MTX. Posteriormente, nós investigamos as bases moleculares que acarretam na expressão reduzida de CD39 observada em células Tregs de pacientes URMTX. Demonstramos que a estimulação com TGF-? tanto em células Tregs isoladas quanto diferenciadas in vitro aumenta a expressão de CD39 através da ativação sequencial da seguinte plataforma molecular: receptores de TGF-? (TGFBRII e TGFBRI), transdutor de sinal SMAD2, fator de transcrição CREB, de modo dependente da atividade de p38. Uma vez identificada a via envolvida com a indução da expressão de CD39, demonstramos que células Tregs diferenciadas de indivíduos que apresentam uma expressão reduzida de CD39 são incapazes de induzir a expressão desta ectoenzima através da estimulação com TGF-?. Por fim, transpondo nossos achados para pacientes com AR, observamos que pacientes UR-MTX apresentam uma redução nos níveis de RNAm para TGFBRII e CREB bem como também uma redução das proteínas fosforiladas SMAD2 e CREB em células CD4+ e Tregs, sugerindo que o comprometimento na cascata de sinalização de TGF-?, envolvida com a indução da expressão de CD39 em células Tregs, está associado com a resistência ao MTX. / Rheumatoid arthritis (RA) is an autoimmune multifactorial arthropathy with unknown etiology that affects approximately 1% of the adult population. The standard strategy for RA treatment comprises the administration of low doses of methotrexate (MTX), whose antiinflammatory effects are associated with maintenance of high levels of extracellular adenosine (ADO). However, a considerable proportion of RA patients is resistant to MTX treatment and the mechanisms underlying this phenomenon occurs is poorly understood. Within this context, the present study showed that therapeutic efficacy of MTX is associated with expression on Treg cells of the ectoenzyme CD39, whose function is related to the generation of extracellular ADO by ATP metabolism. Specifically, we conducted a longitudinal study and observed that responsive patients to MTX (R-MTX) exhibit an increase in the frequency of circulating Treg cells expressing CD39 after MTX treatment. On the other hand, we found that non-responsive patients to MTX (UR-MTX) have a reduction of CD39 expression on Treg cells, which culminates in an impairment of Treg function. Furthermore, these findings indicate that CD39 expression on Treg cells is a biomarker for therapeutic response to MTX, since UR-MTX patients had a depressed CD39 expression on Treg cells even before MTX treatment. Subsequently, the present study investigated the molecular mechanisms that would cause the reduction of CD39 expression on Treg cells from UR-MTX patients. For this, we demonstrated that TGF-? stimulation increases CD39 expression in isolated and in vitro differentiated Treg cells through participation/activation of the following molecules: receptors of TGF-?, TGFBRII and TGFBRI, signal transducer SMAD2 and transcription factor CREB, through p38 activity dependent-manner. Once identified these molecules involved with CD39 induction, we demonstrated that differentiated Treg cells from healthy individuals with an intrinsic reduction of CD39 expression on circulating Treg cells are unable to increase CD39 expression by TGF-? stimulation. Transposing our findings to RA patients, we found that UR-MTX patients exhibit a reduction of mRNA for TGFBRII and CREB as well as reduction on levels of phospho-SMAD2 and phospho-CREB in CD4+ and Treg cells, suggesting that an impairment in TGF-? signaling pathway, related to induction of CD39 expression on Treg cells, is associated with MTX resistance.

Adenosina

Adenosine

Artrite reumatóide

Auto-immunity

Auto-imunidade

CD39

CD39

Células tregs

Methotrexate

Metotrexato

Rheumatoid arthritis

Treg cells

Modulation of immune responses by UV irradiation

Yu, Cunjing

January 2016

Atopic dermatitis (AD) is a common, chronic relapsing inflammatory skin disease associated with cutaneous hyper-reactivity to environmental triggers that are innocuous to normal nonatopic individuals. AD affects 10% to 15% of children and 2% to 10% of adults in industrialized countries. There has been increasing interest in this disease triggered by its increasing prevalence in western societies and its contribution to the increasing health care costs. Yet, the underlying pathophysiologic and genetic mechanisms leading to the manifestation of AD are not clear. AD results from a complex interplay between environmental triggers, susceptibility genes including mutations in the keratinocyte protein filaggrin and altered immune responses resulting in allergic CD4+ T cell (Th2) immunity to epidermally encountered antigens. Regulatory T cells (Tregs) play an important role in controlling responsiveness to self-antigens and preventing autoimmune diseases, as well as in limiting inflammatory responses during inflammation and infection. Currently, studies investigating the number and function of Tregs in patients with AD have shown controversial results. It has been long established that symptoms of AD improve on exposure to sunlight. Narrowband UVB (NB-UVB) phototherapy is a common treatment modality for a variety of skin diseases. Considering the adverse effects for systemic treatment for severe adult AD, phototherapy, especially NB-UVB phototherapy may be a more practical long-term treatment. However, approximately 50% of patients over an 8-week treatment course do not improve after NB-UVB phototherapy. Therefore, it is important to identify characteristics of AD patients to determine whether they will respond to phototherapy and to avoid adverse effects for unresponsive patients. UVB exposure has also been associated with induction of Tregs in mice and increasing their numbers and/or functional capacity may offer benefit to patients with chronic AD. Active vitamin D (1,25(OH)2D3), one of the factors induced by UV-B radiation induces Tregs and is suggested to contribute to the suppressive effect of NB-UVB phototherapy. However, UV radiation could also have beneficial effects through other pathways known to affect immunoregulation. UVB exposure upregulates production of nitric oxide (NO) in the skin which also affects immune cell function. The protein filaggrin is broken down in differentiating keratinocytes to form the natural moisturizer of the skin. The gene encoding filaggrin (FLG) has been shown to be a major predisposing factor for AD. A key breakdown product is urocanic acid (UCA) which also acts as a natural sunscreen and undergoes trans-cis isomerisation on exposure to UV-B. Cis-UCA is known to modulate immune responses, however, the mechanisms of its action remain elusive. The production of all three compounds, vitamin D, cis-UCA and NO might all increase in the circulation of patients undergoing UVB phototherapy. While the immunomodulatory effect of Vitamin D is well described, cis-UCA and NO may also affect the behaviour of T lymphocytes systemically. Therefore, I investigated the effect of NO and cis-UCA on the phenotype and function of CD4+T cells and monocyte-derived dendritic cells (Mo-DCs) derived from peripheral blood mononuclear cells (PBMCs) from healthy volunteers. I also investigated the correlation between plasma concentration of 25(OH) vitamin D and nitrate, FLG genotype, circulating Tregs and clinical efficacy of NB-UVB phototherapy. My results showed that NO did not affect the phenotype of human mo-DCs and directly affected peripheral CD4+ T cells by inducing functional CD25+Foxp3+CD127-Tregs from CD4+CD25lo/- effector T cells. Moreover, NO increased expression of the of skin homing marker CLA on these Tregs, suggesting an increased ability of NO-induced Tregs to migrate to the skin. These NO-induced CD25+Foxp3+CD127-Tregs had immunosuppressive functions and inhibited autologous CD4+ T cell proliferation. Cytokines, at least IL-10, secreted by NO-treated CD4+ T cells were not sufficient for the suppressive function of NOinduced Foxp3+Tregs. The immune regulatory function of NO-induced Fopx3+Tregs required cell-cell contact and was mediated by membrane bound TGFβ and PD-1/PD-L1 but not CTLA-4. Results also showed that cis-UCA might have both pro- and anti-inflammatory effects. Cis- UCA significantly decreased the proportion of CD25hi Foxp3+ cells from activated CD4+ T cells. It also decreased the expression of vitamin D receptor in CD4+ T cells which may interfere with the immune regulatory function of vitamin D. These results suggested that there might be a fine balance between UV-induced anti-inflammatory molecules’ effect on CD4+ T cells. However, Cis-UCA also modulated CD4+ T cell directly by decreasing CD4+ T cell proliferation, decreasing phosphorylation of ERK after TCR activation, enhancing immune suppressive cytokines secretion, and inhibiting the percentage of CLA+CD4+T cells suggesting a decreased ability to migrate to the skin, . Cis-UCA also affected the phenotype and function of antigen presenting cells by decreasing the expression of HLA-DR, CD86 and CD40 on immature mo-DCs, which led to increased proportion of CD25+Foxp3+CD127- T cells when co-cultured with allogenic CD4+ T cells. Results generated from the clinical study in which all 29 patients got better after phototherapy suggested although circulating 25 (OH) vitamin D concentration was significantly increased after NB-UVB phototherapy, the change of circulating 25 (OH) vitamin D concentration did not correlate with disease improvement. This suggests that vitamin D is not the only pathway involved and that other molecules contribute to UVB-induced immune-regulation. The data also show that of the levels of circulating nitrate and the FLG genotype did not correlate with improvement / change with phototherapy. However, the expression of CD69 and CLA on circulating CD4+ T cells was decreased after treatment suggesting that UVB affected T cell activation and migration to the skin, and their importance in determining clinical responses requires further investigation. Taken together, the results from my study provide evidence that vitamin D is not the only molecule responsible for the beneficial effect of NB-UVB phototherapy. NO and cis-UCA may down-regulate immune responses by affecting human peripheral CD4+ T cells and mo- DCs phenotype and function. A further understanding of the effect of NO and cis-UCA on skin resident immune cells will provide more insights for narrowing NB-UVB phototherapy which will help to select patients that most likely to benefit from a mechanism-based treatment.

616.5

A sinalização de TGF-&#946; envolvida na expressão de CD39 em células T reguladoras está associada com a eficácia terapêutica do metotrexato na artrite reumatóide / TGF-? signaling involved in the CD39 expression on regulatory T cells is associated with therapeutic efficacy of the methotrexate in rheumatoid arthritis

Raphael Sanches Peres

28 September 2016

A Artrite Reumatóide (AR) é uma artropatia autoimune multifatorial com etiologia desconhecida que afeta aproximadamente 1% da população adulta. A estratégia padrão para o tratamento da AR consiste na administração de baixas doses de Metotrexato (MTX), cujo efeito anti-inflamatório está relacionado com a manutenção dos níveis elevados de adenosina (ADO) extracelular. No entanto, uma parte considerável dos pacientes com AR é refratária ao tratamento com MTX e o mecanismo pelo qual este fenômeno ocorre ainda não está totalmente esclarecido. Neste contexto, o presente estudo descreveu que a eficácia terapêutica ao MTX está associada com a expressão em células Tregs da ectoenzima CD39, cuja função biológica é a geração de ADO extracelular via metabolização do ATP. Especificamente, através da realização de um estudo longitudinal, observamos que pacientes respondedores ao MTX (R-MTX) apresentam uma expansão de células Tregs circulantes expressando CD39 após o tratamento com MTX. Por outro lado, identificamos que pacientes não respondedores ao MTX (UR-MTX) possuem uma redução da expressão de CD39 em células Tregs, o que culmina em um comprometimento das suas funções supressoras. Ainda, demonstramos que a expressão de CD39 em células Tregs é um biomarcador apto em predizer a resposta terapêutica ao MTX, visto que pacientes UR-MTX apresentam uma expressão reduzida de CD39 em Tregs mesmo antes do início do tratamento com MTX. Posteriormente, nós investigamos as bases moleculares que acarretam na expressão reduzida de CD39 observada em células Tregs de pacientes URMTX. Demonstramos que a estimulação com TGF-? tanto em células Tregs isoladas quanto diferenciadas in vitro aumenta a expressão de CD39 através da ativação sequencial da seguinte plataforma molecular: receptores de TGF-? (TGFBRII e TGFBRI), transdutor de sinal SMAD2, fator de transcrição CREB, de modo dependente da atividade de p38. Uma vez identificada a via envolvida com a indução da expressão de CD39, demonstramos que células Tregs diferenciadas de indivíduos que apresentam uma expressão reduzida de CD39 são incapazes de induzir a expressão desta ectoenzima através da estimulação com TGF-?. Por fim, transpondo nossos achados para pacientes com AR, observamos que pacientes UR-MTX apresentam uma redução nos níveis de RNAm para TGFBRII e CREB bem como também uma redução das proteínas fosforiladas SMAD2 e CREB em células CD4+ e Tregs, sugerindo que o comprometimento na cascata de sinalização de TGF-?, envolvida com a indução da expressão de CD39 em células Tregs, está associado com a resistência ao MTX. / Rheumatoid arthritis (RA) is an autoimmune multifactorial arthropathy with unknown etiology that affects approximately 1% of the adult population. The standard strategy for RA treatment comprises the administration of low doses of methotrexate (MTX), whose antiinflammatory effects are associated with maintenance of high levels of extracellular adenosine (ADO). However, a considerable proportion of RA patients is resistant to MTX treatment and the mechanisms underlying this phenomenon occurs is poorly understood. Within this context, the present study showed that therapeutic efficacy of MTX is associated with expression on Treg cells of the ectoenzyme CD39, whose function is related to the generation of extracellular ADO by ATP metabolism. Specifically, we conducted a longitudinal study and observed that responsive patients to MTX (R-MTX) exhibit an increase in the frequency of circulating Treg cells expressing CD39 after MTX treatment. On the other hand, we found that non-responsive patients to MTX (UR-MTX) have a reduction of CD39 expression on Treg cells, which culminates in an impairment of Treg function. Furthermore, these findings indicate that CD39 expression on Treg cells is a biomarker for therapeutic response to MTX, since UR-MTX patients had a depressed CD39 expression on Treg cells even before MTX treatment. Subsequently, the present study investigated the molecular mechanisms that would cause the reduction of CD39 expression on Treg cells from UR-MTX patients. For this, we demonstrated that TGF-? stimulation increases CD39 expression in isolated and in vitro differentiated Treg cells through participation/activation of the following molecules: receptors of TGF-?, TGFBRII and TGFBRI, signal transducer SMAD2 and transcription factor CREB, through p38 activity dependent-manner. Once identified these molecules involved with CD39 induction, we demonstrated that differentiated Treg cells from healthy individuals with an intrinsic reduction of CD39 expression on circulating Treg cells are unable to increase CD39 expression by TGF-? stimulation. Transposing our findings to RA patients, we found that UR-MTX patients exhibit a reduction of mRNA for TGFBRII and CREB as well as reduction on levels of phospho-SMAD2 and phospho-CREB in CD4+ and Treg cells, suggesting that an impairment in TGF-? signaling pathway, related to induction of CD39 expression on Treg cells, is associated with MTX resistance.

Adenosina

Artrite reumatóide

Auto-imunidade

CD39

Células tregs

Metotrexato

Adenosine

Auto-immunity

CD39

Methotrexate

Rheumatoid arthritis

Treg cells

Antigen Specific Induced T Regulatory Cellular Therapy for Graft-Versus-Host Disease Following Allogeneic Bone Marrow Transplantation

Heinrichs, Jessica Lauren

20 January 2016

Allogeneic hematopoietic stem cell transplantation (allo-HCT) has been a successful cellular therapy for patients suffering from hematological malignancies for many decades; however, the beneficial effects of graft-versus-leukemia (GVL) are classically offset by graft-versus-host disease (GVHD). GVHD occurs when major and/or minor human leukocyte antigen (HLA) mismatches between donor and recipient cause rapid expansion and activation of donor effector T cells (Teffs) resulting in end organ damage to the recipient’s epithelial tissues. Given the lymphoproliferative nature of this disease, the standard treatment option is broad immunosuppression, which can result in primary disease relapse, steroid refractory GVHD, and/or opportunistic infection. A more targeted therapy that can selectively suppress GVH responses with maintained GVL responses would achieve the optimal goal of allo-HCT. Regulatory T cells (Tregs) both natural (nTregs) or induced (iTregs) could be potential cellular therapies for the treatment of GVHD, given their innate suppressive function. Initial clinical trials using nTregs have yielded positive results; however, nTreg cellular therapy has been cumbersome due to the necessity for large scale ex vivo expansion given their low yield within an apheresis product and non-specific suppression. Conversely, iTregs can be generated from naïve T cells thus decreasing ex vivo culture times and can be educated with specific antigen thus providing targeted suppression, but a consensus on their efficacy for GVHD therapy has not been reached. Therefore, we investigated the efficacy of antigen specific iTreg therapy for the prevention of GVHD while maintaining GVL responses. In Chapter 2, we evaluated the effectiveness of monoclonal HY-specific iTregs in GVHD attenuation. We chose HY as a target antigen because it is a naturally processed, ubiquitously expressed minor mismatch antigen carried by only male donors/recipients cited to increase GVHD prevalence when donor and recipient are sex-mismatched. Utilizing HY-transgenic mice in which all T cells recognize HY antigen exclusively, we generated HY specific iTregs which effectively attenuating GVHD in male, but not female recipients in three murine bone marrow transplantation (BMT) models (major mismatch, parent to F1, and miHAg mismatch). We found HY specific iTregs lost stability in female recipients but remained stable and suppressive in male recipients suggesting expression of HY antigen was required for their suppressive function and stability. GVL responses were not compromised with the addition of HY specific iTregs in recipient mice using a pre-established tumor model. Thus, HY-specific iTregs can be generated and suppress GVHD in an antigen-dependent manner while sparing the GVL effect. In Chapter 3, we extend our findings in Chapter 2, which provided proof of principle that antigen specific iTregs effectively control GVHD; however, this therapy has a limited translational potential. Therefore, we generated alloreactive CD4 and CD8 iTregs and evaluated GVHD attenuation and GVL preservation in either full or haplo-MHC mismatched BMT models. We found alloreactive CD4 iTregs significantly suppress lethal GVHD, but completely abrogated the GVL effect against aggressive tumors. Conversely, alloreactive CD8 iTregs moderately attenuated GVHD and possessed direct cytotoxicity against tumor cells. Therefore, to rescue the impaired GVL effect mediated by CD4 iTregs, we established a combinational therapy with CD8 iTregs. Indeed we found combination CD4 and CD8 iTreg therapy significantly suppressed GVHD while sparing GVL responses compared to either CD4 or CD8 singular therapy. Mechanistically, this was achieved by potent suppression of both CD4 and CD8 Teffs coupled with preserved cytolytic molecule expression by both CD8 iTregs and Teffs. Taken together, we propose antigen specific iTreg therapy can effectively attenuate GVHD while preserving GVL responses. We further uncovered unique characteristics of CD4 and CD8 iTregs that can be exploited to achieve the optimal cellular therapy following allo-HCT.

Alloreactive

Graft-versus-Leukemia

CD8 Induced Tregs

Minor-mismatched antigens

and Combination therapy

Immunology and Infectious Disease

Medicine and Health Sciences

Oncology

Imunointervenční terapie nově vzniklého autoimunitně podmíněného diabetu u NOD myší. / Immunointerventional therapy of autoimmune diabetes with recent oncet in NOD mice.

Vargová, Lenka

January 2016

Introduction: Type 1 diabetes mellitus is a chronic metabolic disease caused by autoimmune destruction of pancreatic beta cells. The theory of the disease onset is derived from study of a disease course in non-obese diabetic (NOD) mice, in which the diabetes occurs due to a dysregulation of the immune system. Experimental and clinical studies showed that the autoimmunity may be abrogated by immune intervention, which if initiated early enough may at least slow down the ongoing beta cells lost and preserve residual insulin secretion. But immune intervention alone is not sufficient to restore normoglycemia in the majority of cases. Several interventional studies showed that stimulation of proliferation and/or regeneration of beta cells are necessary to restore normoglycemia in animal models. Aim of the study: To find out, if the combination of a potent immunosuppression (murine anti-thymocyte globulin (mATG), gusperimus) together with stimulation of islet regeneration (sitagliptin) will be able to slow down or reverse the course of the disease. Another aim is to identify the mechanism by which the substances act. Material and methods: All experiments were performed in female NODShiLtJ (H2g7 ) mice. The following parameters were examined at day 0, 7, 14 and 28: blood glucose, subpopulations of...

Autoantigenspezifische CD4+ T-Zellen in ihrer kardioprotektiven Rolle nach Myokardinfarkt im Mausmodell

Rieckmann, Max

12 June 2019

Einleitung: Jeder sechste Mann und jede siebte Frau in der westlichen Welt werden am Myokardinfarkt und seinen Folgepathologien sterben. Nach einem Infarkt ist das Herz nicht fähig die nekrotisierten Kardiomyozyten zu regenerieren, es findet lediglich eine Defektheilung statt. Das entstehende Platzhaltergewebe besteht aus Bindegewebe und ist Ziel fortlaufender Heilungs- und Umbauprozesse. Ob diese in einer stabilen funktionalen Narbe oder in einem Herzwandaneurysma mit sich verschlechternder Herzfunktion enden, hängt im Wesentlichen von dem physiologischen Abschluss des Entzündungsprozesses ab. Den ersten Schritt der Heilung stellt die sterile Entzündung dar, welche durch Proteolyse und Phagozytose die strukturelle Grundlage für die Proliferation des Narbengewebes schafft. Doch auch in späteren Heilungsphasen steuern immunologische Prozesse den regenerativen Ablauf und kommen im besten Fall mit der Ausheilung der Narbe zum Erliegen. Es kann allerdings auch zu einem pathologischen Persistieren dieser Entzündungsantwort kommen, was meist zu einer chronischen Verschlechterung der Organfunktion führt. In welche Richtung sich diese Entzündungsantwort entwickelt, scheint maßgeblich von der Art der Reaktivität des adaptiven Immunsystems auf das ausheilende Gewebe abzuhängen. Nachdem Autoimmunität lange Zeit nur in ihrem pathologischen Kontext untersucht wurde, zeigten mehrere Wundheilungsmodelle die notwendige Beteiligung des adaptiven Immunsystems für eine physiologische Regeneration. Dabei reagieren heilungsförderliche Lymphozyten auf gewebespezifische Autoantigene. Dies zeigte sich auch durch die Aktivierung regulatorischer T-Helfer-Zellen nach einem experimentellen Myokardinfarkt (EMI) in Mäusen, die ihrerseits myokardiale Entzündungsprozesse, Heilung und Remodeling positiv modulieren. Ein Autoantigen, welches in diesem Kontext diskutiert wird, ist das Kardiomyosin. Es wird ausschließlich herzrestriktiv exprimiert und ist in der Lage immunstimulierend zu wirken. Ziele der Untersuchung: In der vorliegenden Arbeit wurde die Relevanz der Antigenspezifität bezüglich Kardiomyosin in immunologischen Heilungsprozessen untersucht. Dabei wurde im Speziellen auf die Beeinflussung der T-Zell-Reaktivität durch das Milieu des infarzierten Herzens eingegangen. Tiere, Material und Methoden: Es wurden Kardiomyosin-spezifische Thy1.1+ CD4+ T- Helfer-Zellen (TCR-M) in gesunde Thy1.2+ Wildtyp-BALB/c- und transgene Do11.10- Empfängermäuse transferiert. Einen Tag später wurde durch die Ligatur eines Herzkranzgefäßes ein permanenter Infarkt ausgelöst. An Tag 7 post operationem wurden die Qualität des Heilungsvorganges und die Herzfunktion mittels Echokardiographie beurteilt. An Tag 7 und 49 post operationem wurden die Organe (Herz, Mediastinallymphknoten, Kniefaltenlymphknoten und Milz) entnommen und das T-Zellkompartiment, sowie dessen organspezifische Abundanz mittels Durchflusszytometrie und Light-Sheet Flourescence Microscopy (LSFM) charakterisiert. Die Experimente wurden mit 3-23 Mäusen pro Gruppe jeweils 2-5 Mal unabhängig voneinander durchgeführt. Für die statischen Analysen wurden die Mittelwerte der Variablen mittels ungepaarter t-Tests (Vergleich zweier Mittelwerte) oder two-way ANOVA gefolgt durch die Šidák Korrektur (Vergleich von mehr als zwei Mittelwerten) verglichen. Wahrscheinlichkeitswerte von p < 0,05 wurden als statistisch signifikant angesehen. Ergebnisse: Durchflusszytometrie und LSFM Analysen stellten eine erhöhte Akkumulation und Aktivierung der TCR-M in Herzen infarzierter Mäuse zur Hochphase des Heilungsprozesses (Tag 7) im Vergleich zur Sham-Gruppe (Kontroll-operierte Mäusen ohne Infarkt) dar. Dieses Phänomen konnte nicht an anderen untersuchten Orten im Körper (Milz, Kniefaltenlymphknoten) festgestellt werden. In den Mediastinallymphknoten kam es sowohl unter Kontroll-, als auch Infarktbedingungen zu einer Akkumulation und Aktivierung der TCR-M, was auf konstitutiv ablaufende autoimmune Prozesse hindeutet. In der chronischen Heilungsphase (Tag 49) verteilte sich diese Zellpopulation gleichmäßig auf die untersuchten Organe, was für eine selbstlimitierende Autoreaktivität post-EMI der T-Zellen spricht. Bemerkenswerterweise differenzierten transferierte TCR-M, die in ihren Spendertieren pathogen wirken und eine letale Autoimmunmyokarditis auslösen, in infarzierten Mäusen zu regulatorischen T-Zellen. Dort agieren sie kardioprotektiv, was letztendlich zum Erhalt der echokardiographisch erhobenen Herzfunktionsparameter führte. Schlussfolgerung: Die Ergebnisse dieser Arbeit liefern Evidenz für die ursächliche Rolle des herzspezifischen Antigens Kardiomyosin in der postinfarziellen T-Zell-Reaktivität. Weiterhin wird der determinierende Einfluss des Infarktkontextes unabhängig von Antigenspezifität demonstriert. Dieser polarisiert T-Helfer-Zellen in ihrer Funktion zu regulatorischen T-Zellen und führt zu einer protektiven und heilungsförderlichen Autoimmunantwort.
:1. Einleitung - 1 2. Literaturübersicht und Zielstellung - 3 2.1. Der Myokardinfarkt - 3 2.2. Pathophysiologie des Myokardinfarktes - 4 2.3. T-Zellen - 10 2.3.1. Die funktionelle Rolle der T-Zellen - 10 2.3.2. Konventionelle T-Zellen - 11 2.3.3. Regulatorische T-Zellen - 14 2.3.4. Der T-Zell-Rezeptorkomplex - 16 2.3.5. Genesis und Toleranz des T-Zell Kompartiments - 19 2.3.6. T-Zellen im Myokardinfarkt - 22 2.4. Antigenspezifität und Autoimmunität im Myokardinfarkt - 23 2.5. Zielstellung der Studie - 24 3. Material und Methoden - 25 3.1. Versuchsaufbau - 25 3.2. Versuchstiere - 25 3.3. Organentnahmen - 26 3.4. Adoptiver CD4+ T-Zell Transfer - 26 3.5. Fluorescence-Activated Cell Sorting - 27 3.6. Experimenteller Herzinfarkt - 31 3.7. Echokardiographie - 33 3.8. Light-Sheet Fluorescence Microscopy - 35 3.9. Statistische Analysen - 35 4. Ergebnisse - 36 4.1. TCR-M Akkumulation post-EMI in med-LN und Herz - 36 4.2. TCR-M Aktivierung und Differenzierung zu Tregs post-EMI - 40 4.3. Kardioprotektion post-EMI durch TCR-M in DO11.10-Empfängertieren - 43 5. Diskussion - 46 5.1. Wahl des Kandidatenantigens - 46 5.2. Kritische Betrachtung der Analysemethoden - 47 5.3. Interpretation der Daten - 48 5.4. Vergleich der Tiermodelle - 52 5.5. Vergleich der chirurgischen Modelle - 53 5.6. Belastungseinschätzung - 54 6. Zusammenfassung - 56 7. Summary - 58 8. Literaturverzeichnis - 60 9. Danksagung - 74

info:eu-repo/classification/ddc/636.089

ddc:636.089