Global ETD Search

11	Modulation of T cell antigen receptor signaling in CD8+ T lymphocytes following priming with homeostatic and inflammatory cytokines / Modulation de la signalisation via TCR chez les lymphocytes T CD8+ suite à une stimulation par cytokines homéostatiques et inflammatoires Lamontagne-Blouin, Christopher January 2012 (has links) La stimulation de cellules T naïves nécessite du déclenchement de la signalisation par l'intermédiaire du récepteur d'antigène de cellule T (TCR) ainsi que l'activation simultanée des récepteurs de co-stimulation. Toutefois, les cellules T CD8+ naïves peuvent proliférer de façon antigène-indépendants suite à la stimulation synergique par certaines cytokines homéostatiques (IL-7 ou IL-15) et inflammatoires (IL-6 ou IL-21). Ces cellules pré-stimulées prolifèrent même à des faibles concentrations d'antigènes ou en présence d’agonistes du TCR. Ceci leur permet de sécréter des cytokines effectrices, d'être plus spécifiques à leur antigène et d’avoir une activité cytolytique plus importante. Les mécanismes déclenchés par les cellules T CD8+ permettant une sensibilité accrue à l'antigène suite à la "pré-stimulation aux cytokines" n'ont pas encore été élucidés. Nous avons utilisé trois différents modèles de souris transgéniques portant le TCR P14, PMEL ou 8.3-NOD sur les lymphocytes T CD8+ afin d’étudier les mécanismes moléculaires suite à la pré-stimulation aux cytokines. Les cellules T CD8+ portant le TCR transgénique amorcées avec les cytokines, possèdent une augmentation globale des protéines tyrosine-phosphorylés après stimulation du TCR par rapport aux cellules naïves. Cette augmentation de la phosphorylation de la protéine tyrosine a été associée à une augmentation de l'expression de CD8, et a été moins prononcé lorsque CD8 a également été réticulés avec le TCR. Ceci suggère que l'amorçage aux cytokines peut prédisposer le TCR et CD8 à colocaliser, ce qui renforcerait la phosphorylation des chaînes du TCR par la kinase Lck associée à CD8. Les lymphocytes T CD8+ amorcées aux cytokines présentent également des quantités accrues de radeaux lipidiques plasmatiques à la membrane, qui organisent la plate-forme de signalisation du TCR au cours de la stimulation antigénique. L’amorçage aux cytokines des lymphocytes T CD8+ a également augmenté la localisation de CD45, une phosphatase qui diminue l’inhibition automatique de la Lck dans les radeaux lipidiques. Cependant, l'amorçage aux cytokines n'a pas d'incidence sur la capacité des cellules CD8+ T pour former des conjugués avec les cellules présentatrices d'antigène puisées avec des peptides apparentés. En conclusion, ces résultats suggèrent que la composition et les fonctions des radeaux lipidiques peuvent moduler la sensibilité à l'antigène via le TCR lorsque les lymphocytes T CD8+ ont été pré-stimulés aux cytokines. CD45 Radeaux lipidiques Lck CD8 Cytokine priming IL-21 IL-15 IL-7 Cellules T CD8+
12	Identifikace nového mechanismu regulace Lck zprostředkovanou její C-terminální sekvencí / Identification of a new mechanism of Lck regulation via its C-terminal sequence Valečka, Jan January 2014 (has links) T-cell activation is a complex process crucial for a proper function of immune system. It has been extensively studied and its main features are well understood. However, some of the events involved in T-cell signalling are still unclear. After T-cell receptor stimulation, Src-family kinase Lck drives the initiation of signalling by tyrosine phosphorylation. Phosphorylation of several downstream targets is dependent on the redistribution of Lck to the different compartment of the plasma membrane, called lipid rafts. In lipid rafts, active Lck is juxtaposed and activates raft-resident substrates which then trigger downstream signalling. The critical in this process is the mechanism of Lck translocation to lipid rafts which has not been studied so far and represents the topic of great academic and clinical interests. Previously, we identified the adaptor protein RACK1 as a candidate protein mediating the redistribution of Lck to lipid rafts by linking it to the microtubular network. In this thesis, we analysed the structural features and functional role of RACK1 in its interaction with Lck. We show here, using the SYF cell lines expressing the wild type and various mutated forms of Lck, that intact SH3 or SH2 domains of Lck are required for an effective RACK1-Lck complex formation. We also documented...
13	Mechanisms of lck-dependent proliferation during thymocyte development / Tasch, Michael A. January 2000 (has links) Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 139-193).
14	Generation and Application of Antigen-Specific Induced Regulatory T cells in Allogeneic Bone Marrow Transplantation Semple, Kenrick 01 January 2011 (has links) CD28 co-stimulation is required for the generation of naturally occurring regulatory T cells (nTregs) in the thymus through Lck-signaling. However, high level of CD28 suppresses the generation of induced Tregs (iTregs) from naïve CD4 T cells, although underlying mechanism(s) has not been defined. Here we investigated the role of CD28-mediated signaling pathways in the suppression of Treg generation. We used a series of transgenic (Tg) mice on CD28-deficient background that bears WT CD28 or mutated CD28 in its cytosolic tail incapable of binding to Lck, PI3K or Itk. Regardless of exogenous IL-2, strong CD28 costimulation suppressed iTreg generation through Lck signaling. Using a GVHD model to test the role of CD28-mediated iTreg suppression in T cell pathogenicity in vivo, we found that CD28-Lck T cells induced significantly less GVHD than T cells from CD28-WT mice. Furthermore, we found that the recipients of T cells from CD28-Lck mice generated significantly more iTregs than those with T cells from CD28-WT, which contribute to reduced graft-versus-host disease (GVHD) development in recipients of CD28-Lck T cells. These results indicate that CD28 costimulation can negatively regulate Treg generation and may provide an avenue for control of T-cell immunity or tolerance by regulating Tregs using the CD28 signal as a target. We went a step forward and investigated the therapeutic potential of antigen-specific iTregs in the prevention of GVHD. Donor hematopoietic stem cells and mature T cells are transplanted into a lymphopenic host to potentially cure many cancers and hematopoietic diseases like leukemia in bone marrow transplantation (BMT) or hematopoietic stem cell transplantation (HCT), but the frequent development of GVHD is the main drawback of this treatment. nTregs suppress the development of GVHD and may spare graft-versus-tumor effect. However, nTregs are a minor (~5%) subpopulation of CD4 helper T cells in healthy individuals, and using in vitro expanded nTregs is a common strategy to test their therapeutic potential in BMT. The concern of in vitro expanded nTregs may include their stability of Foxp3 (master regulatory gene for the development and function of regulatory T cell) expression and suppressive function, survival in vivo, and the non-selective suppression of the pre-activated nTregs. Antigen-specific activation of the regulatory T cells is important for optimal function. In this study, we used an alternative strategy to generate antigen-specific, iTregs and assessed their suppressive potential by comparing their effectiveness in preventing GVHD with polyclonal iTregs. We found that antigen-specific iTregs prevented GVHD lethality in recipients that expressed the target antigen, but were not protective of recipients who did not express the target antigen. Furthermore, antigen-specific iTregs were significantly more efficient than those polyclonal Tregs in the prevention of GVHD. These results reveal the therapeutic potential of antigen-specific iTregs to prevent GVHD efficiently and selectively, and provide the rationale to use antigen-specific iTregs in clinical HCT. Allogeneic stem cell transplantation CD28 costimulation CD28-mediated Lck signaling Graft-versus-host-disease Linked suppression American Studies Arts and Humanities Immunology and Infectious Disease
15	Primary T cell immunodeficiencies associated with disturbed proximal T cell receptor signalling caused by human autosomal recessive LCK, ZAP-70 and ITK-mutations Hauck, Fabian 12 November 2013 (has links) (PDF) T lymphocytes express either a preTCR, or a clonotyoic γδ TCR or αβ TCR together with the CD3-complex and the associated ζ-chain. TCR:CD3:ζ-signalling is crucial for T cell development and antigen-specific activation including proliferation, differentiation, effector functions and apoptosis of mature T cells. Protein tyrosine kinase (PTK) cascades lie at the heart of proximal TCR:CD3:ζ-signalling. The CSK-, SRC-, SYK- and TEC-family members C-terminal SRC kinase (CSK), lymphocyte-specific protein tyrosine kinase (LCK), ζ-chain associated protein tyrosine kinase of 70 kDa (ZAP-70) and interleukin-2-inducible T cell kinase (ITK), respectively, are the major T cell players. After TCR:CD3:ζ-complex triggering, activation of PTKs result in tyrosine phosphorylation signals. These include phosphorylation of immunoreceptor tyrosine-based activation motifs (ITAMs) of the CD3 and ζ-chains, adaptor proteins that nucleate the proximal LAT:SLP-76-signalosome controlling almost all TCR:CD3:ζ-induced signalling events. These events initiate Ca2+-flux, activation of mitogen-activated protein kinases (MAPKs), activation of nuclear factor of kappa light polypeptide gene enhancer in B-cells (NF-κB), activation of nuclear factor of activated T cells (NFAT) and activator protein 1 (AP-1) as well as actin reorganization, cell-adhesion and motility.Througout the last five decades, the immune system has been extensively investigated in vitro and in animal models such as the murine system. Additionally, studying and taking care of human primary immunodeficiency diseases (PIDs) has been seminal for our understanding of the human immune system as animal models not always recapitulates the subtleties found in men.In my doctoral thesis I report the first case of autosomal recessive human LCK-deficiency, a novel autosomal recessive mutation leading to human ZAP-70-deficiency and a novel autosomal recessive mutation leading to human ITK-deficiency. I provide detailed clinical, immunological and biochemical analyses especially of TCR:CD3:ζ-signalling and compare my findings to the well-established Lck-/-, Zap-70-/- and Itk-/- murine models. PID SCID CID TCR T cell Lck Zap-70 ITK
16	Primary T cell immunodeficiencies associated with disturbed proximal T cell receptor signalling caused by human autosomal recessive LCK, ZAP-70 and ITK-mutations Hauck, Fabian 12 November 2013 (has links) (PDF) T lymphocytes express either a preTCR, or a clonotypic γδ TCR or αβ TCR together with the CD3-complex and the associated ζ-chain. TCR:CD3:ζ-signalling is crucial for T cell development and antigen-specific activation including proliferation, differentiation, effector functions and apoptosis of mature T cells. Protein tyrosine kinase (PTK) cascades lie at the heart of proximal TCR:CD3:ζ-signalling. The CSK-, SRC-, SYK- and TEC-family members C-terminal SRC kinase (CSK), lymphocyte-specific protein tyrosine kinase (LCK), ζ-chain associated protein tyrosine kinase of 70 kDa (ZAP-70) and interleukin-2-inducible T cell kinase (ITK), respectively, are the major T cell players. After TCR:CD3:ζ-complex triggering, activation of PTKs results in tyrosine phosphorylation signals. These include phosphorylation of immunoreceptor tyrosine-based activation motifs (ITAMs) of the CD3 and ζ-chains, and adaptor proteins that nucleate the proximal LAT:SLP-76-signalosome controlling almost all TCR:CD3:ζ-induced signalling events. These events initiate Ca2+-flux, activation of mitogen-activated protein kinases (MAPKs), activation of nuclear factor of kappa light polypeptide gene enhancer in B-cells (NF-κB), activation of nuclear factor of activated T cells (NFAT) and activator protein 1 (AP-1) as well as actin reorganization, cell-adhesion and motility. Throughout the last five decades, the immune system has been extensively investigated in vitro and in animal models such as the murine system. Additionally, studying and taking care of human primary immunodeficiency diseases (PIDs) has been seminal for our understanding of the human immune system as animal models not always recapitulate the subtleties found in men. In my doctoral thesis I report the first case of autosomal recessive human LCK-deficiency, a novel autosomal recessive mutation leading to human ZAP-70-deficiency and a novel autosomal recessive mutation leading to human ITK-deficiency. I provide detailed clinical, immunological and biochemical analyses especially of TCR:CD3:ζ-signalling and compare my findings to the well-established Lck-/-, Zap-70-/- and Itk-/- murine models. PID SCID CID TCR T cell Lck Zap-70 Itk
17	Coreceptor and costimulatory signals organize proteins within the immunological synapse and augment proximal T cell signaling events / Delli, Joe. January 2006 (has links) Thesis (Ph.D. in Immunology) -- University of Colorado, 2006. / Typescript. Includes bibliographical references (leaves 277-285). Free to UCDHSC affiliates. Online version available via ProQuest Digital Dissertations;
18	Role of CD2 and its ligands in T cell activation Li, Bin 08 1900 (has links) CD2 is a transmembrane molecule and a “non-canonical” member of the signaling lymphocyte activation molecule (SLAM) family of receptors that is expressed on T cells and NK cells. Its ligands, mouse CD48 and human CD58, are widely expressed on hematopoietic cells including antigen-presenting cells (APCs) and T cells. Previous studies indicated that CD2 promotes T-cell receptor (TCR) signaling when it is engaged by its ligands displayed on APCs. However, the supporting experimental data were rather controversial, and there is no general agreement about the role of CD2 in T cell activation. To study the function of CD2 and its ligands in T cells, we examined T cell functions in newly generated mouse strains lacking CD2 or CD48 in the C57BL/6 background. Compared to wild-type (WT) mice, T cells from CD2-deficient (“knock-out”; KO) mice had severe activation defects. Surprisingly, expression of CD48 on T cells, not on APCs, was also necessary for optimal T cell responses. We found evidence of CD2 interacted with CD48 in cis on T cells and observed their co-localization by confocal microscopy and fluorescence resonance energy transfer (FRET). The only exception was CD2-dependent cytotoxicity, which required CD48 both on T cells and on APCs. Mechanistic studies using mass spectrometry and structure-function analyses revealed that the cis interactions between CD2 and CD48 on T cells boosted TCR signaling, an effect that correlated with the capacity of CD2 to recruit the kinase Lck. Similarly, our further study revealed that the cis interactions between CD2 and CD58 on human T cells were also necessary for maximal TCR signaling and T cell activation. Taken together, our studies provide clear evidence that cis interactions between CD2 and its ligands on T cells are important in TCR signaling and T cell activation. Modulation of these cis interactions can be a promising approach to suppress or enhance T cell activation in a therapeutic setting. / CD2 est une molécule transmembranaire et un membre “ non-canonique ” de la famille de la famille SLAM (« signaling lymphocyte activation molecule ») exprimée à la surface des lymphocytes T et des cellules NK (« natural killer »). Les ligands de CD2, CD48 chez la souris et CD58 chez l’humain, sont exprimés de manière ubiquitaire sur les cellules hématopoïétiques, y compris sur les cellules présentatrices d’antigène (CPA) et lymphocytes T. Des études antérieures ont indiqué que CD2 est impliqué dans la signalisation des récepteurs TCR (« T-cell receptor ») en réponse à son engagement par CD48 sur le CPA; cependant, les données expérimentales qui supportent ce modèle sont plutôt contradictoires et aucun accord n’a été trouvé sur les rôle de CD2 dans l’activation de lymphocytes T. Pour étudier la fonction de CD2 et ses ligands, nous avons examiné les fonctions des lymphocytes T chez des souches de souris dépourvues de CD2 ou CD48 nouvellement générées à partir du “fond génétique” C57BL/6. Par rapport aux souris de type sauvage (WT; « wild-type »), les lymphocytes T de souris CD2-déficientes (« knock-out »; KO) présentent des sévères défauts d’activation. Il est intéressant de noter que l’expression de CD48 sur les lymphocytes T, mais non sur les CPA, était aussi nécessaire pour les réponses des lymphocytes T. Nous avons également démontré que CD2 interagit en cis avec CD48 sur les cellules T et avons observé leur co-localisation par microscopie confocale et FRET (« fluorescence resonance energy transfer) ». La seule exception était la cytotoxicité CD2- dépendante, qui nécessitait l’expression de CD48 à la fois sur les lymphocytes T et sur les CPA. L’étude des mécanismes par la spectrométrie de masse et les analyses structurefonction ont démontré que les interactions en cis entre CD2 et CD48 permettent de stimuler la signalisation du TCR, ce qui corrèle avec la capacité de CD2 à recruter la kinase Lck. De manière similaire, notre étude plus approfondie a démontré que les interactions en cis entre CD2 et CD58 sur les lymphocytes T humains sont nécessaires pour la signalisation maximale du TCR et l’activation cellulaire T. L’ensemble de nos études ont mis en évidence que les interactions en cis entre CD2 et ses ligands sur les lymphocytes T jouent un rôle important dans la signalisation du TCR et l’activation de ces cellules. La modulation de ces interaction en cis pourrait être une approche potentielle pour augmenter ou interférer avec l’activation des lymphocytes T dans un contexte thérapeutique. T cell activation Graft-versus-host disease CD2 CD48 CD58 Lck cis interactions Activation des cellules T Maladie du greffon contre l'hôte Interaction en cis Immunology / Immunologie (UMI : 0982)
19	The Effects of Immune Regulation and Dysregulation: Helper T Cell Receptor Affinity, Systemic Lupus Erythematosus and Cancer Risk, and Vaccine Hesitancy Johnson, Deborah K. 03 June 2020 (has links) Helper T cells direct the immunological response to foreign pathogens and cancer. To become activated, helper T cells must recognize unique peptides presented on major histocompatibility complex II (pMHCII) by antigen presenting cells (APCs) with their T cell receptor (TCR). While much is known about helper T cell activation signaling cascades and the subsequent roles of helper T cell subsets, the initiation of helper T cell activation by the TCR and other co-receptors is less well understood. Specifically, the affinity of the TCR for its pMHCII can change helper T cell subset fate, proliferation, and alter the risk for activation induced cell death. High affinity TCRs are attractive targets for immunotherapies, but little is known about how helper T cells respond to high affinity TCRs. Here we describe high affinity TCR activation thresholds for both full length TCRs and chimeric antigen receptor TCRs both with and without the presence of the coreceptor CD4 and propose a mechanism whereby CD4 inhibits T cell activation via Lck sequestration and a CD4-independent method. Dysregulated helper T cells play critical roles in the development and perpetuation of systemic lupus erythematosus (SLE), a systemic autoimmune disease that causes widespread inflammation and organ damage throughout the body. Chronic inflammation in SLE affects the immune response to viruses and the risk of developing cancer. However, in SLE patients, it is unclear if viruses initiate the development of cancer directly or if the effects are non-interacting and concomitant. Here we describe the interactions between SLE, viruses, and cancer risk revealing that viruses and SLE do interact to increase the both the overall cancer risk and the risk for hematological malignancies. Due to vaccine efficacy, vaccine preventable diseases (VPDs) are no longer commonly experienced or understood by the public. Vaccines are a victim of their own success and according to the World Health Organization (WHO), vaccine hesitancy (VH) is one of the top threats to global health. VH is the refusal to accept vaccinations and the reasons for VH vary across time, place, and vaccine. Refuting VH is difficult as directly confronting false assumptions can cause individuals to become more entrenched in their position resulting in confirmation bias. Adults with VH attitudes are often motivated by concerns over personal liberty, harm, independence, and body purity. Here we describe the results of a VPD interview- and education-based intervention geared towards promoting positive vaccine attitudes for young adults and demonstrate that education focused on VPDs is more effective than vaccine safety. Helper T cell CD4+ T cell CD4 T cell receptor (TCR) Lck IL-2 T cell activation TCR single chain signaling (TCR-SCS) chimeric antigen receptor (CAR) full length TCR (flTCR) high affinity TCRs systemic lupus erythematosus (SLE) cancer-risk viruses vaccine hesitancy (VH) vaccine preventable diseases (VPDs) vaccines Life Sciences

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