Global ETD Search

41	Participação do CD40-L Solúvel (sCD40-L) na resposta microbicida de macrófagos infectados por Leishmania chagasi Barreto, Aline Silva 10 May 2014 (has links) Visceral Leishmaniasis (VL) is a severe desease, endemic in the Brazil, with a tendency to be more prevalent in urban areas. The pathology of VL is associated with a reduced production of IFN-. by T-cells and the increased production of IL-10, which suppresses the activation of macrophages and promotes development of the disease. Activated T cells can express CD40L interacting with CD40 expressed on antigen presenting cells (APC), this interaction is important for the activation of APCs and production of inflammatory cytokines, chemokines, nitric oxide (NO) and metalloproteinases, triggering a protective response in experimental models of LV. Data from our group showed that VL patients have low serum levels of sCD40L before treatment and that these levels increase over the same, titles reaching close to those found in endemic control, suggesting a protective effect of this molecule. In this work we evaluated the participation of sCD40L in modulating the immune response of macrophages infected with Leishmania chagasi. In this work we evaluated the participation of sCD40L in modulating the immune response of macrophages infected with Leishmania chagasi. For this, human macrophages were infected with promastigotes of Leishmania chagasi in the presence of serum containing high titers of sCD40L with and without addition of blocking antibody, anti-CD40L. After 72 hours, the microbicidal response was evaluated by number of infected macrophages and the number of intracellular parasites We observed that there was a 43% reduction in the percentage of infected macrophages and 58% of the number of intracellular parasites when compared to the medium (P = 0.01) and this effect was reversed by the blockade of sCD40L, because there was a 24% increase in the percentage of infected macrophages and 33% of the number of amastigotes. From the results we can conclude that the sCD40Lestá related to development of a protective immune response by activating microbicidal mechanisms of macrophages to control infection by L. chagasi. / A Leishmaniose Visceral (LV) é uma doença grave e endêmica no Brasil, sendo mais prevalente em áreas urbanas. A patologia da LV está associada a uma menor produção de IFN-. por células T e ao aumento da produção de IL-10, que suprime a ativação dos macrófagos e promove o desenvolvimento da doença. Células T ativadas podem expressar CD40L que interagem com o CD40 expresso em células apresentadoras de antígeno (APC), essa interação é importante para a ativação de APCs e produção de citocinas inflamatórias, quimiocinas, óxido nítrico (NO) e metaloproteinases, desencadeando uma resposta protetora em modelos experimentais de LV. Dados do nosso grupo demostraram que pacientes com LV apresentam baixos níveis séricos de sCD40L antes do tratamento e que esses níveis aumentam no decorrer do mesmo, atingindo títulos próximos aos valores encontrados no controle endêmico, sugerindo um efeito protetor dessa molécula. Neste trabalho avaliamos a participação do sCD40L presente no soro na resposta microbicida de macrófagos infectados por Leishmania chagasi. Para isso, macrófagos humanos obtidos a partir de PBMC foram infectados com promastigotas de Leishmania chagasi na presença de soro contendo altos títulos de sCD40L, com e sem adição de anticorpo de bloqueio, anti-CD40L. Avaliamos a resposta microbicida a partir do número de macrófagos infectados e a quantidade de parasitos intracelulares. Observamos que houve uma redução de 43% do percentual de macrófagos infectados e de 58% do número de parasitos intracelulares quando comparado ao meio (p=0.01), sendo esse efeito foi revertido com o bloqueio do sCD40L, pois ocorreu um aumento de 24% do percentual de macrófagos infectados e de 33% do número de amastigotas. A partir dos resultados obtidos concluimos que o sCD40L está relacionado ao desenvolvimento de uma resposta imunológica protetora por ativar mecanismos microbicidas dos macrófagos para o controle da infecção por L. chagasi. Leishmaniose visceral Macrófagos Antígenos Imunologia Epidemiologia Ligante de CD40 Epidemiology Immunology Kala-azar Macrophages CD40 ligand
42	Alterações genético-moleculares em pacientes deficientes de CD40L. / Molecular genetic defects in CD40L-deficient patients. Otávio Cabral Marques 15 September 2008 (has links) A deficiência de CD40 Ligante (CD40L) ou síndrome de Hiper-IgM ligada ao X (X-HIGM) é considerada uma imunodeficiência primária combinada de células T e B. O CD40L é expresso na superfície de linfócitos T ativados e interage com o CD40 expresso na superfície de linfócitos B, macrófagos, células dendríticas, células endoteliais e neutrófilos. A interação CD40L-CD40 transmite sinais que induzem ativação, diferenciação e proliferação celular. Nosso objetivo foi analisar as alterações genético-moleculares da molécula CD40L que acometeram indivíduos de 5 famílias brasileiras, ocasionando X-HIGM. Genotipamos 25 indivíduos, sendo 6 pacientes com X-HIGM, 13 parentes relacionados heterozigotos e 6 homozigotos sadios. Dentre os pacientes com X-HIGM dois eram de origem caucasóide e 4 eram mestiços. A idade dos pacientes variou de 2 a 20 anos e o quadro clínico de infecções de repetição teve início em média nos primeiros 4 meses de vida. As principais infecções recorrentes manifestadas pelos pacientes foram pneumonia e otite. O paciente TB apresentou blastomicose, observação original nesta imunodeficiência. A análise genético-molecular foi heterogênea. No paciente TB foi detectado um defeito de splicing levando a deleção do exon 3 (r.345_402del do gene CD40L (CD40LG) no paciente FS uma nova substituição missense g.11856 G>C (c.476 G>C, pW140C), no paciente KC uma substituição nonsense g.11855 G>A (c.475G>A, p. W140X), e nos pacientes CH, FE e VIC uma deleção g. 3074_3077delTAGA, levando a alteração no processamento do RNA. A fenotipagem dos leucócitos demonstrou que a contagem de linfócitos T auxiliares (CD3+CD4+), linfócitos citotóxicos (CD3+CD8+), linfócitos B (CD19+CD40+) e linfócitos T ativados (CD3+CD69+) dos pacientes foram similares aos controles sadios. Contudo, foi observada uma redução significativa nos níveis de expressão de CD40L na superfície de linfócitos CD3+ e CD4+ dos pacientes. A análise dos linfócitos T por microscopia confocal revelou que as células dos homozigotos com expressão residual do CD40L em sua superfície também apresentam redução na densidade da expressão da molécula CD3, sugerindo a necessidade da integridade molecular do CD40L para a expressão normal do CD3. Concluímos que mutações no CD40L que levam à síndrome de X-HIGM são heterogêneas e a análise genético-molecular permitiu um diagnóstico preciso tornando possível o aconselhamento genético e a triagem dos recém-nascidos das famílias avaliadas. / CD40-Ligand (CD40L) deficiency or X linked Hyper-IgM syndrome (X-HIGM) is considered a T and B cell combined primary immunodeficiency. CD40L is expressed on the cell surface of activated T lymphocytes and interacts with CD40, expressed on the surface of B lymphocytes, macrophages, dendritic cells, endothelial cells, and neutrophils. The CD40L-CD40 interaction induces activation, differentiation, and cell proliferation. Our aim was to analyze the molecular-genetic alterations of CD40L molecule affecting individuals of 5 brazilian families, leading to X-HIGM. We genotyped 25 individuals, whom 6 were X-HIGM patients, 13 were heterozygote related patients, and 6 were healthy homozygotes. Within the patients with X-HIGM, two of them were of caucasoid origin and four were mestiços. The patients age ranged from 2 to 20 years and their recurrent infections started in average during their first 4 months of life. The main recurrent infections were pneumonia and otitis. The patient TB presented blastomycosis, a unique observation in this immunodeficiency. The molecular-genetic analysis revealed heterogeneity. TB patient presented a splicing defect causing a deletion of exon 3 (r.345_402del) of CD40L gene (CD40LG). Patient FS presented a new missense mutation g.11856 G>C (c.476 G>C, pW140C). Patient KC presented a nonsense substitution g.11855 G>A (c.475G>A, p. W140X). Patients CH, VIC, and FE presented a deletion g. 3074_3077delTAGA, causing an alteration on RNA processing. The leukocytes fenotyping demonstrated that T helper lymphocytes (CD3+CD4+), T cytotoxic lymphocytes (CD3+CD8+), B lymphocytes (CD19+CD40+), and T activated (CD3+CD69+) cell counts of patients were similar to healthy controls. However it was observed a significant reduction of CD40L expression on cell surface patients CD3+ and CD4+ lymphocytes. The T lymphocyte confocal microscopy analysis revealed that homozygotes with residual expression of CD40L in their surface also presented a reduction on the density of CD3 molecule expression, suggesting the need of molecular integrity of CD40L for normal CD3 expression. We conclude that mutations on CD40L leading to X-HIGM syndrome are heterogeneous and the molecular-genetic analysis allowed a precise diagnosis making possible the genetic counseling and newborn screening of the involved families. CD40 ligante Defeito genético molecular Deficiência de proteína Genética molecular Imunodeficiência primária Imunogenética CD40 ligand Immunogenetics Molecular genetic Molecular genetic deficiency Primary immunodeficiency Protein deficiency
43	Implication de l'association CD20/CD40 dans la mort cellulaire induite via le CD20 Al-Zoobi, Loubna 06 1900 (has links) CD20 est une phosphoprotéine transmembranaire exprimée spécifiquement à la surface des lymphocytes B. Malgré les nombreuses études qui ont montré son implication dans le flux calcique, son rôle physiologique est assez mal connu. Cependant, des études récentes ont démontré que CD20 peut jouer un rôle important dans la mort cellulaire. D’ailleurs, le rituximab, un anticorps monoclonal chimérique dirigé contre CD20 humain, a montré son efficacité dans le traitement de nombreuses maladies auto-immunes. Cet anticorps est capable d’induire une profonde déplétion des lymphocytes B, qui va également interférer avec la coopération T et la sécrétion de cytokines. En plus, l’engagement du CD20 à la surface des cellules induit la mort cellulaire, alors que la partie cytoplasmique de cette molécule ne possède pas un motif de mort. Donc, il est possible que cette réponse soit médiée par des molécules qui semblent être associées au CD20 comme CD40. En effet, CD40, une glycoprotéine transmembranaire de type I, est un composant majeur du système immunitaire, dont l’engagement pourrait moduler la fonction cellulaire et même conduire à la mort rapide des cellules B. Le travail présenté dans ce mémoire porte sur l’étude de la mort cellulaire induite par un anti-CD20, le rituximab, ainsi que l’étude du rôle de l’association CD20/CD40 dans la mort cellulaire médiée par cet anticorps. Nos résultats montrent que la mort cellulaire induite par le rituximab varie en fonction du type cellulaire et du niveau d’expression du CD20, et que la présence du CD40 à la surface des cellules augmente l’activité de la mort cellulaire induite par le rituximab. En plus, CD20 et CD40 sont associés à la surface cellulaire, et la partie cytoplasmique n’est pas impliquée dans cette association mais semble être importante dans la mort cellulaire induite via CD20. / CD20 is a transmembrane phosphoprotein specifically expressed at the surface of B cells. Despite the many studies that have shown its involvement in calcium flux, its physiological role is poorly understood. However, recent studies have shown that CD20 can play an important role in cell death. Moreover, rituximab, a chimeric monoclonal antibody directed against human CD20, has shown efficacy in the treatment of many autoimmune diseases. Indeed, this antibody is able to induce a profound depletion of B cells and interfere in T cooperation and secretion of cytokines. In addition, the engagement of CD20 at the cell surface induces cell death, while the cytoplasmic portion of this molecule has no death domain. So, it is possible that this response is mediated by molecules that could be associated with CD20, like CD40. In fact, CD40, a type I transmembrane glycoprotein, is a major component of the immune system. The engagement of CD40 can modulate cellular function and may even lead to rapid B cell death. The work presented in this thesis will focus on the study of cell death induced by an anti-CD20, rituximab, and on the role of the association of CD40 with CD20 at the cell surface in susceptibility to cell death mediated by this antibody. Our results show that cell death induced by rituximab depends on cell type and on the levels of expression of CD20, and that the presence of CD40 at the cell surface increases cell death induced by rituximab. In addition, CD20 and CD40 are associated at the cell surface, and the cytoplasmic portion is not involved in this association but seems to be important in induction of cell death by CD20. CD20 CD40 rituximab mort cellulaire association cell death
44	CD40 signalling in platelet function Hachem, Ahmed 08 1900 (has links) Le CD40 est un membre de la famille des récepteurs du facteur de nécrose tumorale ("Tumour necrosis factor", TNF), initialement identifié sur des cellules de carcinome de la vessie. L'interaction du CD40 avec son ligand (CD40L) est d'une importance cruciale pour le développement des cellules B et de la commutation d'isotype au cours de la réponse immunitaire acquise. L'expression du complexe CD40/CD40L était initialement cru d'être limiter aux cellules du système immunitaire, mais aujourd'hui il est bien connu que ce complexe est également exprimé sur les cellules du système circulatoire et vasculaire, et est impliqué dans diverses réactions inflammatoires; de sorte que le CD40L est maintenant considéré comme une molécule thrombo-inflammatoire prédictive des événements cardiovasculaires. Les plaquettes expriment constitutivement le CD40, alors que le CD40L n'est exprimé que suite à leur l'activation. Il est ensuite clivé en sa forme soluble (sCD40L) qui représente la majorité du sCD40L en circulation. Il fut démontré que le sCD40L influence l'activation plaquettaire mais son effet exact sur la fonction plaquettaire, ainsi que les mécanismes cellulaires et moléculaires sous-jacents à son action demeurent inconnus. Ainsi, ce projet a été entrepris dans le but d’adresser les objectifs spécifiques suivants: 1) évaluer les effets in vitro du sCD40L sur l'activation et l'agrégation plaquettaire; 2) identifier les récepteurs plaquettaires impliqués dans l’action du sCD40L; 3) élucider les voies signalétiques intracellulaires induits par le sCD40L; 4) évaluer les effets du sCD40L sur la formation de thrombus in vivo. Nous avons trouvé que le sCD40L augmente fortement l'activation et l'agrégation des plaquettes en réponse à de faibles concentrations d'agonistes. Les plaquettes humaines traitées avec une forme mutante du sCD40L qui n'interagit pas avec le CD40, et les plaquettes de souris déficientes en CD40 ne furent pas en mesure d'induire de telles réponses, indiquant que le récepteur principal du sCD40L au niveau des plaquettes est le CD40. En plus, nous avons identifié la présence de plusieurs membres de la famille du facteur associé du récepteur du TNF ("TNF receptor-associated factor", TRAF) dans les plaquettes et nous avons montré que seulement le TRAF2 s'associe avec le CD40 suite à la stimulation par le sCD40L. Nos résultats indiquent aussi que le sCD40L agisse sur les plaquettes au repos par l'entremise de deux voies signalétiques distinctes. La première voie implique l'activation de la petite GTPase Rac1 et de sa cible en aval, soit la protéine kinase p38 activée par le mitogène ("p38 mitogen-activated protein kinase", p38 MAPK ), menant au changement de forme plaquettaire et à la polymérisation de l'actine; alors que la deuxième voie implique l'activation de la cascade signalétique du NF-kB. Par ailleurs, à la suite d'une lésion artérielle induite par le chlorure de fer, le sCD40L exacerbe la formation de thrombus et l'infiltration leucocytaire au sein du thrombus dans les souris du type sauvage, mais pas chez les souris déficientes en CD40. En conclusion, ce projet a permis d'identifier pour la première fois deux voies signalétiques distinctes en aval du CD40 plaquettaire et a permis d'établir leur implication dans l'activation et l'agrégation plaquettaire en réponse au sCD40L. De manière plus importante, ce projet nous a permis d'établir un lien direct entre les niveaux élevés du sCD40L circulant et la formation de thrombus in vivo, tout en soulignant l'importance du CD40 dans ce processus. Par conséquent, l'axe CD40/CD40L joue un rôle important dans l'activation des plaquettes, les prédisposant à une thrombose accrue en réponse à une lésion vasculaire. Ces résultats peuvent expliquer en partie la corrélation entre les taux circulants élevés du sCD40L et l'incidence des maladies cardiovasculaires. / CD40 is a member of the tumour necrosis factor (TNF) receptor family, originally identified on human bladder carcinoma cells. Interaction of CD40 with its ligand (CD40L) is of crucial importance for B cell development and immunoglobulin isotype switching during the adaptive immune response. Expression of the CD40/CD40L dyad was initially thought to be restricted to cells of the immune system, but today it is known to be also expressed on cells of the circulatory and vascular systems, and have important implications in various inflammatory reactions, such that CD40L is now regarded as a thrombo-inflammatory molecule and a reliable predictor of cardiovascular events. Platelets constitutively express CD40, whereas CD40L is expressed upon activation and subsequently cleaved into its soluble form (sCD40L), accounting for the majority of circulating sCD40L. Soluble CD40L has been shown to influence platelet activation but its precise effect on platelet function, and the underlying cellular and molecular mechanisms remain undefined; hence the purpose of this project. The specific aims of this study are: 1) to evaluate the in vitro effects of sCD40L on platelet activation and aggregation; 2) to determine the receptor(s) on platelets involved in the action of sCD40L; 3) to elucidate the intracellular signalling pathways induced by sCD40L; and 4) to evaluate the in vivo effects of sCD40L on thrombus formation. We have showed that sCD40L strongly enhances activation and aggregation of washed human platelets in response to sub-threshold concentrations of agonists. Human platelets treated with a mutated form of sCD40L that lacks CD40 binding, and platelets from CD40 deficient mice failed to elicit such responses, indicating that CD40 is the major platelet receptor for sCD40L. Moreover, we identified the presence of multiple members of the TNF receptor-associated factor (TRAF) in platelets and showed that only TRAF2 associates with CD40 after sCD40L stimulation. Interestingly, sCD40L primes resting platelets through two distinct signalling pathways. The first pathway involves activation of the small GTPase Rac1 and its downstream target p38 mitogen-activated protein kinase, leading to platelet shape change and actin polymerization; whereas the second pathway involves activation of the NF-κB signalling cascade. Furthermore, sCD40L exacerbates thrombus formation and leukocyte infiltration within the thrombus mass in wild-type mice but not in CD40 deficient mice following ferric chloride-induced arterial injury. In conclusion, we have identified for the first time two distinct signalling pathways downstream of platelet CD40, and established their implication in platelet activation and aggregation in response to sCD40L. Noticeably, we established a direct link between elevated levels of sCD40L and in vivo thrombus formation, while emphasizing the requirement of CD40 in this process. Therefore, the CD40/CD40L dyad plays an important role in platelet priming that predisposes platelets to enhanced thrombus formation in response to vascular injury. These results may partly explain the correlation between elevated circulating levels of sCD40L and the incidence of cardiovascular diseases. Plaquettes Thrombose Voies Signalétiques CD40L CD40 Platelets Thrombosis Signal Transduction
45	THE EFFECT OF NON-SURGICAL PERIODONTAL THERAPY ON SERUM LEVELS OF C-REACTIVE PROTEIN AND HUMAN SOLUBLE CD40 LIGAND Ficca, Matthew D. 01 January 2008 (has links) Evidence linking periodontitis and cardiovascular disease points to systemic inflammation as the primary etiology. The investigation into this association has focused on periodontitis as a low grade chronic infection, and subsequently, systemic inflammation and the cascade of numerous markers and mediators integrally involved in the human inflammatory response. The aim of this study was to measure the differences in circulating levels of C-reactive protein and human soluble CD40 ligand as markers and mediators of systemic inflammation in the serum of patients with moderate to severe periodontitis before, during, and after non-surgical periodontal therapy.Twenty-one patients were treated with full mouth scaling and root planing performed on two separate appointments spaced approximately 2 weeks apart. The third visit, an evaluation of non-surgical therapy, occurred 8 weeks after completion of scaling and root planing. Blood samples were procured from each patient at the first and second appointment prior to scaling and root planing and again at a third visit. CRP and sCD40 ligand levels were measured using ELISA. CRP levels remained relatively constant throughout the study maintaining a mean level of 2.44 mg/L at visit 1, 2.53 mg/L at visit 2, and 2.63 mg/L at visit 3. These differences were not statistically significant. sCD40 ligand mean levels were reported to be 847.7 pg/mL, 637.3 pg/mL, and 859.5 pg/mL, respectively for visits 1, 2, and 3. These values were not statistically significant. Within the limitations of this study, no evidence was found to directly relate non-surgical periodontal therapy with the lowering of systemic markers CRP and human soluble CD40 ligand. inflammation periodontitis c-reactive protein CD40 ligand Dentistry Medicine and Health Sciences Periodontics and Periodontology
46	IGE PRODUCTION REGULATION VIA CD23 STALK ENGAGEMENT AND CELL CYCLE STIMULATION Caven, Timothy Hays 01 January 2006 (has links) CD23, the low affinity receptor for IgE, is expressed mainly on B cells and has been shown to regulate IgE production. Previously, recombinant mouse and human CD23 were constructed with a trimerizing isoleucine zipper motif attached in frame to the N-terminus of the entire extracellular CD23 (lz-ECCD23). The goal was to examine the role of the necessity of the CD23 stalk for binding IgE. Using PCR-based mutagenesis to delete the majority of the stalk, binding to IgE was lost. Further studies examined the effect of lz-ECCD23 in preventing IgE from binding FcεRI and therefore acting as a therapeutic agent. It was determined that the lz-ECCD23 construct was capable of doing this, albeit most effectively at 4°C rather than at physiological temperature. In addition, antibodies to the stalk region of CD23 were developed and assessed for their capacity to modulate IgE. Rabbit anti-CD23stalk (RAS) antibodies were found to inhibit IgE production in IL-4/antiCD40 stimulated B cells. The inhibition observed was dependent on the Fc portion of the antibody, implicating a role for FcγRIIb, an inhibitory receptor, in the IgE reduction. It was also shown that the addition of anti-stalk antibodies caused significant release of soluble CD23 (sCD23). Finally, I show that optimal IgE production was cell density dependent and was achieved through the addition of IL-21 and/or IL-10 to IL-4/antiCD40 stimulated B cells. While IgE production is inversely proportional to plated cell densities, it is directly correlated to increased cellular division, as determined by CFSE staining, and to increased cellular differentiation, as determined by FACS analysis for differentiation markers. This work is the first demonstration that IgE production in humans is dependent on cell density, that IL-21 affects all isotypes tested, and that maximal Ig production is found at lower cell densities, correlating with increased cell division. I also show for the first time that the increase in IgE observed after IL-10 addition to IL-4 and anti-CD40 stimulated cells correlates with increased cellular division. When IL-10 and IL-21 were added together, there was a synergistic increase in IgE, but interestingly, no further cell division was seen, suggesting an increase in differentiation. IL-4 anti-CD40 IL-21 cell division IgE Medicine and Health Sciences
47	Étude de la différenciation des lymphocytes T CD8+ effecteurs et mémoires : rôle de la cellule présentatrice d’antigène et de la voie de signalisation Notch Mathieu, Mélissa 09 1900 (has links) Lors d’une infection par un pathogène, des lymphocytes T CD8+ naïfs (LTn) spécifiques de l’antigène sont activés, prolifèrent et se différencient en LT effecteurs (LTe). Les LTe produisent différentes cytokines et acquièrent une activité cytotoxique menant à l’élimination du pathogène. Seulement 5 à 10 % des LTe survivront et se différencieront en LT mémoires (LTm), qui sont capables de répondre plus rapidement lors d’une seconde infection par le même pathogène, contribuant au succès de la vaccination. Toutefois, la compréhension de l’ensemble des mécanismes régulant le développement des LTe et des LTm demeure incomplète. Afin de mieux comprendre les signaux requis pour la différenciation des LT CD8+ lors de la réponse immune, nous avons posé deux hypothèses. Nous avons d’abord proposé que différentes cellules présentatrices d’antigène (CPA) fournissent différents signaux au moment de la reconnaissance antigénique influençant ainsi le devenir des LT CD8+. Vu leur potentiel d’utilisation en immunothérapie, nous avons comparé la capacité d’activation des LT CD8+ par les lymphocytes B activés via le CD40 (CD40-B) et les cellules dendritiques (CD). Nous avons montré que l’immunisation avec des CD40-B induit une réponse effectrice mais, contrairement à l’immunisation avec des CD, pratiquement aucun LTm n’est généré. Les LTe générés sont fonctionnels puisqu’ils sécrètent des cytokines, ont une activité cytotoxique et contrôlent une infection avec Listeria monocytogenes (Lm). Nous proposons qu’une sécrétion plus faible de cytokines par les CD40 B ainsi qu’une interaction plus courte et moins intime avec les LT CD8+ comparativement aux CD contribuent au défaut de différenciation des LTm observé lors de la vaccination avec les CD40-B. Ensuite, nous posé l’hypothèse que, parmi les signaux fournis par les CPA au moment de la reconnaissance antigénique, la voie de signalisation Notch influence le développement des LTe, mais aussi des LTm CD8+ en instaurant un programme génétique particulier. D’abord, grâce à un système in vitro, le rôle de la signalisation Notch dans les moments précoces suivant l’activation du LT CD8+ a été étudié. Ce système nous a permis de démontrer que la voie de signalisation Notch régule directement l’expression de la molécule PD-1. Ensuite, grâce à des souris où il y a délétion des récepteurs Notch1 et Notch2 seulement chez les LT CD8+ matures, un rôle de la voie de signalisation Notch dans la réponse immune des LT CD8+ a été démontré. Nos résultats démontrent que suite à une infection avec Lm ou à une immunisation avec des CD, la signalisation Notch favorise le développement de LTe, exprimant fortement KLRG1 et faiblement CD127, destinés à mourir par apoptose. Toutefois, la signalisation Notch n’a pas influencé la génération de LTm. De façon très intéressante, l’expression des récepteurs Notch influence la production d’IFN- en fonction du contexte d’activation. En effet, suite à une infection avec Lm, l’absence des récepteurs Notch n’affecte pas la production d’IFN- par les LTe, alors qu’elle est diminuée suite à une immunisation avec des CD suggérant un rôle dépendant du contexte pour la voie de signalisation Notch. Nos résultats permettent une meilleure compréhension des signaux fournis par les différentes CPA et de la voie de signalisation Notch, donc des mécanismes moléculaires régulant la différenciation des LT CD8+ lors de la réponse immunitaire, ce qui pourrait ultimement permettre d’améliorer les stratégies de vaccination. / Following an infection with a pathogen, antigen-specific naive CD8+ T lymphocytes (Tn) will proliferate and differentiate into effector (Te) cells. Those Te cells will produce different cytokines and acquire a cytotoxic activity, leading to pathogen clearance. Only 5 to 10 % of Te cells will survive and differentiate into memory CD8+ T lymphocytes (Tm) able to respond rapidly following a second encounter with the same pathogen, contributing to the success of vaccination. However, the mechanisms regulating Te and Tm cells development remain incompletely understood. To better understand the signals required for CD8+ T lymphocytes during an immune response, we proposed two hypotheses. First, we propose that different antigen presenting cells (APCs) can deliver different signals to CD8+ T lymphocytes at the time of priming leading to different outcome. Given their potential for use in immunotherapy, we compared the ability of CD40 activated B lymphocytes (CD40-B) and dendritic cells (DCs) to activate CD8+ T lymphocytes. We have shown that CD40-B cell immunisation leads to an effector response but very few Tm cells are generated compared to DC immunisation. The Te cells generated following CD40-B cell immunisation are functional because they secrete cytokine, are cytotoxic and control a Listeria monocytogenes (Lm) infection. We propose that CD40-B cells secrete less cytokines and interact during shorter period of time with the CD8+ T lymphocytes, without engulfment, contributing to the decreased Tm generation observed following immunisation with CD40-B cells. Second, among the signals provided by APC at the time of CD8+ T lymphocyte priming, we have hypothesised that the Notch signalling pathway influences Te and Tm cell differentiation by inducing a particular genetic program. Using an in vitro system, we first studied the role of the Notch signalling pathway in the hours following CD8+ T lymphocyte priming. We demonstrated that Notch signalling directly regulates PD-1 expression. Then, studying mice where Notch1 and Notch2 receptor genes are deleted only in mature CD8+ T lymphocytes, we characterised the role of the Notch signalling pathway on Te and Tm differentiation during an immune response. Our results show that following Lm infection or a DC immunisation, the Notch signalling pathway promotes the differentiation of short lived effector cells Te cells (KLRG1highCD127low) meant to die by apoptosis. However, the Notch signalling pathway did not influence the generation of CD8+ Tm cells. Most interestingly, IFN- regulation by the Notch signalling pathway depends on the activation context. Indeed, following Lm infection, lack of Notch receptors does not impact IFN- secretion by Te cells while it is significantly decreased following a DC immunisation suggesting a context dependant role for the Notch signalling pathway. Our findings provide a better understanding of the key signals provided by APC as well as the Notch signalling pathway, and thus the molecular mechanisms leading to CD8+ lymphocyte effector and memory generation which is crucial as this knowledge may ultimately lead to improved vaccination. lymphocytes T CD8+ cellules dendritiques (CD) voie de signalisation Notch PD-1 (Programmed death-1) CD8+ T lymphocytes antigen presenting cells (APCs) dendritic cells (DCs) CD40-actived B lymphocytes (CD40-B) Notch signalling pathway
48	Récepteurs aux estrogènes : rôle sur la prolifération, la migration, les MAPKs et CD40/CD40L des cellules endothéliales et musculaires lisses porcines Geraldes, Pedro Miguel January 2006 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. Resténose Hormones Récepteur aux estrogènes Cellules musculaires lisses vasculaires Cellules endothéliales MAPK Inflammation Neutrophiles CD40/CD40L
49	Glutamatergic and Neuroimmune Mechanisms of N-acetylcysteine-Mediated Inhibition of Cue-Induced Nicotine Seeking January 2019 (has links) abstract: Nicotine self-administration is associated with decreased expression of the glial glutamate transporter 1 (GLT-1) and the cystine-glutamate exchange protein xCT in the nucleus accumbens core (NAcore). N-acetylcysteine (NAC), which is an antioxidant, anti-inflammatory, and glutamatergic agent, restores these proteins associated with increased relapse vulnerability. However, the specific molecular mechanisms driving NAC inhibitory effects on cue-induced nicotine reinstatement are unknown. Thus, the present study assessed NAC’s effects on cue-induced nicotine reinstatement are dependent on NAcore GLT-1 expression. Here, rats were treated with NAC in combination with intra-NAcore vivo-morpholinos to examine the role of GLT-1 in NAC-mediated inhibition of cue-induced nicotine seeking. Subchronic NAC treatment attenuated cue-induced nicotine seeking in male rats and an antisense vivo-morpholino (AS) designed to selectively suppress GLT-1 expression in the NAcore blocked this effect. NAC treatment was also associated with an inhibition of pro-inflammatory tumor necrosis factor alpha (TNFα) expression in the NAcore. As well, GLT-1 AS markedly increased expression of CD40, a known marker of pro-inflammatory M1 activation of microglia and macrophages. To further examine whether NAC-induced decreases in nicotine seeking involve suppression of TNFα, we manipulated a downstream mediator of this pathway, nuclear factor kappa B (NF-kB). Considering the putative role of NF-κB in learning, memory, and synaptic plasticity, separate experiments were performed where rats were treated with herpes simplex virus (HSV) vectors designed to increase (HSV-IKKca) or decrease (HSV-IKKdn) NF-κB signaling through interactions with IκB Kinase (IKK). The goal was to examine the role of NF-κB signaling in mediating nicotine seeking behavior and if NF-κB signaling regulates GLT-1 expression. HSV-IKKdn alone and in combination with NAC inhibited cue-induced nicotine reinstatement, while HSV-IKKca blocked the attenuating effect of NAC on reinstatement. Interestingly, both HSV-IKKdn and HSV-IKKca, regardless of NAC treatment, inhibited GLT-1 expression. Taken together, these results suggest that while GLT-1 may be a conserved neurobiological substrate underlying relapse vulnerability across drugs of abuse, immunomodulatory mechanisms may regulate drug-induced alterations in glutamatergic plasticity that mediate cue-induced drug-seeking behavior through GLT-1-independent mechanisms. / Dissertation/Thesis / Masters Thesis Psychology 2019 Neurosciences Behavioral sciences Pharmacology CD40 GLT-1 neuroinflammation nucleus accumbens reinstatement TNF
50	Molecular mechanisms of TRAF6 function in signaling pathways of the oncogenic viral mimic of CD40, LMP1 Arcipowski, Kelly Marie 01 December 2012 (has links) Epstein-Barr virus (EBV)-encoded latent membrane protein 1 (LMP1) plays important roles in EBV-mediated B cell transformation, development of EBV-associated malignancies, and exacerbation of certain autoimmune conditions. LMP1 functionally mimics tumor necrosis factor receptor (TNFR) superfamily member CD40, but LMP1 signals are amplified and sustained compared to those induced by CD40. CD40 and LMP1 rely on TNFR-associated factors (TRAFs) to mediate signaling, but use TRAFs differently. TRAF6 is important for CD40 signaling, and was implicated in LMP1 signaling in non-B cells. Here, we addressed the hypothesis that TRAF6 is a critical regulator of a subset of LMP1 signals in B cells. We found that TRAF6 was required for LMP1-mediated kinase activation and costimulatory molecule upregulation, and associated with the LMP1 TRAF1/2/3/5 binding site (TBS). Additionally, TRAF6 and the TBS contributed to LMP1-induced autoreactivity and antibody (Ab) production in vivo. Finally, in contrast to CD40, LMP1 required the TRAF6 receptor-binding domain to mediate TRAF6-dependent pathways. Thus, TRAF6 is critical for LMP1 signaling and requires LMP1 interaction to propagate signals. Importantly, TRAF6 associates with LMP1 in a manner distinct from CD40, raising the possibility of disrupting LMP1 functions while leaving normal CD40 signaling intact. We next investigated roles of the kinase TAK1 in TRAF6-dependent LMP1 functions. TAK1 was required for CD40- and LMP1-mediated JNK activation in B cells, leading to IL-6 and Ab production. Understanding mechanisms of CD40 and LMP1 signaling provides important insights into normal regulatory control of CD40 functions and how LMP1-mediated pathogenesis escapes or subverts these regulatory mechanisms. LMP1 itself may be a difficult therapeutic target, because it lacks an extracellular domain and is continually processed from the cell surface. Thus, it is important to elucidate similarities and differences between CD40 and LMP1 signals to identify therapeutic targets to block LMP1-mediated pathogenesis. Comparing and contrasting CD40 and LMP1 also increases our understanding of the critical mechanisms used to regulate normal CD40 signaling. CD40 Epstein-Barr virus Latent membrane protein 1 TAK1 TRAF Cell Biology

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