The BTB/POZ Transcription Factor Miz-1 Is Required To Regulate The Commitment, Survival And Differentiation Of Early B And T Cell Lineages

Saba, Ingrid

01 1900

Les lymphocytes B et T sont issus de cellules progénitrices lymphoïdes de la moelle osseuse qui se différencient grâce à l’action de facteurs de transcription, cytokines et voies de signalisation, dont l’interleukine-7 (IL-7)/IL-7 récepteur (IL-7R). Le facteur de transcription c-Myc est exprimé par les cellules lymphoïdes et contrôle leur croissance et leur différenciation. Cette régulation transcriptionnelle peut être coordonnée par le complexe c-Myc/Myc-Interacting Zinc finger protein-1 (Miz-1). Le but de ce projet était de comprendre les mécanismes qui impliquent Miz-1 et le complexe c-Myc/Miz-1 dans le développement des lymphocytes B et T. Pour réaliser ce projet, des souris déficientes pour le domaine de transactivation de Miz-1 (Miz-1POZ) et des souris à allèles mutantes pour c-MycV394D, mutation qui empêche l’interaction avec Miz-1, ont été générées. La caractérisation des souris Miz 1POZ a démontré que l’inactivation de Miz-1 perturbe le développement des lymphocytes B et T aux stades précoces de leur différenciation qui dépend de l’IL-7. L’analyse de la cascade de signalisation IL-7/IL-7R a montré que ces cellules surexpriment la protéine inhibitrice SOCS1 qui empêche la phosphorylation de STAT5 et perturbe la régulation à la hausse de la protéine de survie Bcl-2. De plus, Miz-1 se lie directement au promoteur de SOCS1 et contrôle son activité. En plus de contrôler l’axe IL-7/IL-7R/STAT5/Bcl-2 spécifiquement aux stades précoces du développement afin d’assurer la survie des progéniteurs B et T, Miz-1 régule l’axe EBF/Pax-5/Rag-1/2 dans les cellules B afin de coordonner les signaux nécessaires pour la différenciation des cellules immatures. La caractérisation des souris c-MycV394D a montré, quant à elle, que les fonctions de Miz-1 dans les cellules B et T semblent indépendantes de c-Myc. Les cellules T des souris Miz-1POZ ont un défaut de différenciation additionnel au niveau de la -sélection, étape où les signaux initiés par le TCR remplacent ceux induits par IL-7 pour assurer la prolifération et la différenciation des thymocytes en stades plus matures. À cette étape du développement, une forme fonctionnelle de Miz-1 semble être requise pour contrôler le niveau d’activation de la voie p53, induite lors du processus de réarrangement V(D)J du TCR. L’expression de gènes pro-apoptotiques PUMA, NOXA, Bax et du régulateur de cycle cellulaire p21CIP1 est régulée à la hausse dans les cellules des souris Miz-1POZ. Ceci provoque un débalancement pro-apoptotique qui empêche la progression du cycle cellulaire des cellules TCR-positives. La survie des cellules peut être rétablie à ce stade de différenciation en assurant une coordination adéquate entre les signaux initiés par l’introduction d’un TCR transgénique et d’un transgène codant pour la protéine Bcl-2. En conclusion, ces études ont montré que Miz-1 intervient à deux niveaux du développement lymphoïde: l’un précoce en contrôlant la signalisation induite par l’IL-7 dans les cellules B et T, en plus de l’axe EBF/Pax-5/Rag-1/2 dans les cellules B; et l’autre tardif, en coordonnant les signaux de survie issus par le TCR et p53 dans les cellules T. Étant donné que les thymocytes et lymphocytes B immatures sont sujets à plusieurs rondes de prolifération, ces études serviront à mieux comprendre l’implication des régulateurs du cycle cellulaire comme c-Myc et Miz-1 dans la génération des signaux nécessaires à la différenciation non aberrante et à la survie des ces cellules. Enfin, les modèles expérimentaux, souris déficientes ou à allèles mutantes, utilisés pour ce travail permettront de mieux définir les bases moléculaires de la transformation maligne des lymphocytes B et T et de révéler les mécanismes conduisant au lymphome. / Signaling pathways control the differentiation and proliferation of blood cells, like B and T lymphocytes. They converge into regulating the activity of transcription factors that influence ultimately gene expression patterns. The transcription factor c-Myc is a central regulator of cellular proliferation and growth, and its deregulated expression has been demonstrated to be involved in many types of cancers, in particular lymphoma. Recent studies have shown that repression by c-Myc can be mediated by a complex formed with the BTB/POZ domain transcription factor Miz-1 (Myc Interacting Zinc finger protein-1). Given that both c-Myc and Miz-1 proteins are expressed in lymphoid precursors and since c-Myc has been shown to be important for B- and T-cell development, the aim of this thesis was to investigate the role of Miz-1 and the c-Myc/Miz-1 complex in regulating B and T cell survival, commitment and differentiation. To do so, mice expressing a non-functional Miz-1 protein lacking the BTB/POZ domain (Miz-1POZ) and knock-in mice expressing a mutant c-MycV394D allele that no longer interacts with Miz-1 were generated. B- and T-cell development requires the coordinated action of transcription factors and cytokines, in particular interleukin-7 (IL-7). The studies presented in this work demonstrated that mice deficient for the BTB/POZ domain of transcription factor Miz-1 almost entirely lack follicular B cells and T cells, since their progenitors fail to activate the JAK/STAT5 pathway and to up-regulate Bcl-2 upon IL-7 stimulation. Miz-1 exerts a dual role in the IL-7 receptor (IL-7R) pathway by directly repressing the JAK inhibitor SOCS1 and by activating Bcl-2 expression. In B cells, a functional form of Miz-1 is also required for the proper expression of early B cell genes like E2A and EBF. These data suggest that Miz-1 represents a new regulatory element of early B- and T-cell differentiation required for the regulation of the IL-7/IL-7R/STAT5/Bcl-2 axis by monitoring SOCS1 for survival and by regulating the EBF/Pax-5/Rag-1/2 axis for the proper commitment and differentiation of the B-cell lineage. The regulation exerted by Miz-1 in B and T cells is mostly likely independent of its interacting partner c-Myc, and seems specifically linked to the BTB/POZ domain of Miz-1. Mice deficient for the BTB/POZ domain of Miz-1 have additionally a severe differentiation block at the pre-T cell “-selection” checkpoint. Miz-1 deficient pre-T cells are highly apoptotic and do show cell cycle defects. This concurs with enhanced expression of p53-target genes such as p21CIP1, Bax, PUMA and Noxa, most likely induced by the DNA double-strand breaks generated during the V(D)J recombination of the TCR. Only the co-expression of rearranged TCR and Bcl-2 fully rescued Miz-1-deficient cell numbers and enabled them to differentiate into TCR+ cells. These data suggest that Miz-1 is required for both the regulation of the p53 response and proper expression of the pre-TCR to support the proliferative burst of pre-T cells. In conclusion, the studies presented in this thesis revealed the so far unknown implication of Miz-1 in B- and T-cell development. More specifically, Miz-1 exerts early regulatory functions by monitoring the IL-7/IL-7R signaling in B and T cells. It regulates later stages of differentiation by controlling the EBF/Pax-5/Rag-1/2 in B cells and the TCR expression and the p53 response in T cells. These studies and the generated mice model (conditional knock-out and knock-in) will help characterize the implications of transcription factors that have been causally implicated in the altered genetic programming found in hematopoietic malignancies due to their capacities to regulate cell cycle. Ultimately the characterization of Miz-1 and c-Myc functions in B and T cells will help better understand the mechanisms responsible for the emergence of leukemia and lymphoma.

Miz-1

c-Myc

IL-7R

Differentiation

Apoptosis

STAT5

SOCS1

p53

Miz-1

c-Myc

TCR

Différenciation

Apoptose

Bcl-2

L'immunodominance résulte d'une compétition entre les populations lymphocytaires T CD8⁺ reconnaissant différents antigènes

Roy-Proulx, Guillaume

January 2006

Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal.

Lymphocyte T CD8⁺

Antigènes/épitopes

Immunodominance

Immunodomination

Compétition interclonale

Cytotoxicité

Cellules présentatrices d'antigènes

Récepteur de cellule T

Diversité du répertoire

Interaction TCR-ligand

Cible immunothérapeutique

Chimerické antigenní receptory a jejich využití pro léčbu hematologických malignit / Chimeric antigen receptors in the treatment of hematological malignacies

Fellnerová, Adéla

January 2016

Chimeric antigen receptors (CARs) are artificial molecules composed of an antibody derived antigen recognition domain which is fused with the signal transduction domain derived from the physiological TCR. CAR technology used to transduce patients T-cells and endow them with the specificity to a certain surface antigen, has been a major breakthrough in cancer immunotherapy in the last decade. This strategy has been most successful for treating hematologic malignancies. Various CAR approaches and applications are currently tested mainly in the United States where many clinical trials have been launched. In contrast, in the Czech Republic, there are only a few teams focused on this topic with no clinical trials going on. During my work on this diploma thesis and in close collaboration with MUDr. Pavel Otáhal, PhD., who is working on implementation of CAR technology into the Czech clinics for the treatment of B-cell malignancies, individual functional CARs were prepared and tested. CAR expressing Jurkat T-cell lines were generated using a lentiviral vector transduction system. CAR functionality was determined by two different assays. We have shown that individual CARs are able to recognize the B-cell lineage specific antigens CD19 and CD20 and significantly up-regulate the activation molecule CD69 upon...

Caractérisation des motifs permettant la mobilisation vers les endosomes et la présentation par les molécules du CMH de classe II chez gp100 : un antigène du mélanome

Lepage, Stéphanie

January 2005

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

Immunothérapie tumorale

Mélanome

Gp100

Présentation antigénique

Compartiments du CMH de classe II (MIIC)

Mobilisation endosomiale

Lymphocytes T CD4+

Récepteur des lymphocytes T (TCR)

Minimal Residual Disease Assessment in Childhood Acute Lymphoblastic Leukemia

Thörn, Ingrid

January 2009

Traditionally, response to treatment in hematological malignancies is evaluated by light microscopy of bone marrow (BM) smears, but due to more effective therapies more sensitive methods are needed. Today, detection of minimal residual disease (MRD) using immunological and molecular techniques can be 100 times more sensitive than morphology. The main aim of this thesis was to compare and evaluate three currently available MRD methods in childhood acute lymphoblastic leukemia (ALL): (i) real-time quantitative PCR (RQ-PCR) of rearranged antigen receptor genes, (ii) multicolor flow cytometry (FCM) of leukemia-associated immunophenotypes and (iii) real-time quantitative PCR of fusion gene transcripts (RT-PCR). In paper I, we assessed the applicability of RQ-PCR in a population-based cohort of childhood ALL diagnosed in Sweden between 2002-2006. Clonal IG/TCR rearrangements were identified in the 96% of the 279 ALL cases. Using RQ-PCR, the quantitative range of 10-3 was reached in 93% of B-cell precursor (BCP) ALL and 86% of T-cell ALL (T-ALL) by at least one target gene. In paper II, we compared MRD detection using both RQ-PCR and FCM in the context of NOPHO ALL-2000 protocol. By applying the stratification threshold of ≥0.1% MRD late during induction therapy (day 29), we could demonstrate that both methods can predict the risk of BM relapse but not extramedullary relapse. However, the threshold of ≥0.2% MRD appears to be more optimal using RQ-PCR in BCP ALL, whilst in T-ALL, the results indicate that RQ-PCR is preferable for MRD assessment. The stability of RNA in vitro is a critical factor when using sensitive molecular techniques such as MRD detection. In paper III, we evaluated the influence on MRD detection when blood is collected in tubes with RNA stabilization reagents (PAX gene Vacutatiner®) compared to collection in EDTA-tubes (non-stabilized). We analyzed 68 matched samples from chronic myeloid leukemia patients and the results indicated that non-stabilized blood processed within 30 hours is preferable for MRD detection. In paper IV, follow-up samples from eight children with Philadelphia positive (Ph+) ALL were evaluated with the three available MRD methods. MRD measured by the fusion gene transcripts (BCR-ABL1) appeared to be the most sensitive method, however, precise quantification can be difficult and the other methods are thus complementary. In conclusion, all three applied MRD methods are useful and correlate to each other, although not necessary exchangeable in individual patients. We also conclude that MRD assessment by RQ-PCR, based on rearranged IG/TCR genes and multicolor FCM are predictive for identification of high risk childhood ALL patients.

Childhood acute lymphoblastic leukemia

minimal residual disease

IG/TCR gene rearrangements

BCR-ABL1 fusion gene transcripts

real-time quantitative PCR

multicolor flow cytometry

Pathology

Patologi

Simultaneous Studies Of Electrical Contact Resistance And Thermal Contact Conductance Across Metallic Contacts

Misra, Prashant

10 1900

Contact resistance is the most important and universal characteristic of all types of electrical and thermal contacts. Accurate measurement of contact resistance is important, because it serves as a measure for judging the performance and operational life span of contacts. Rise in contact temperature is one of the major factors that pose a big threat to the stability of electrical contacts. Dissipation of heat by solid conduction through a contact interface is governed by its thermal contact conductance (TCC). This emphasizes the need to study the TCC of an electrical contact along with its electrical contact resistance (ECR). Simultaneous measurement of ECR and TCC is important for understanding the interconnection between these two quantities and the possible influence of one over another. Real time experimental data and analytical correlations can be extremely helpful in developing electrical contacts with improved thermal management capabilities. As a part of the experimental investigation, a test facility has been developed for making simultaneous measurement of ECR and TCC across flat contacts. The facility has the capability of measuring ECR and TCC over a wide range of operating parameters, such as contact pressure, contact temperature, interstitial gaseous media, ambient pressure, etc. It is also capable of determining the electrical resistivity and thermal conductivity of materials as a function of temperature, which is very helpful in analyzing the generated contact resistance data. Using this facility, simultaneous ECR and TCC measurements are made across bare and gold plated contacts of OFHC Cu (oxygen free high conductivity copper) and brass. Simultaneous ECR and TCC measurements are made on nominally flat contacts in the contact pressure range of 0 – 1 MPa and the interface temperature range of 20 – 120 °C. Effect of contact pressure and interface temperature on ECR and TCC is studied on bare and gold coated contacts in vacuum, N2, Ar, and SF6 environments. TCC strongly depends on the thermophysical properties of the interstitial media and shows a significant enhancement in gaseous media, because of the increased interfacial gap conductance compared to vacuum. The gas pressure is varied in the range of 1 – 2.6 bar to study its effect on the gap conductance at different contact pressures and interface temperatures. Minor increase in the ECR observed in gaseous media is found to be independent of the properties of the media. Experimental results indicated that ECR depends on the gas pressure as well as on the applied contact load. Effect of gold coating and its thickness on the ECR and TCC across OFHC Cu and brass contacts is studied. Measurements on electroplated gold specimens having different gold layer thicknesses (0.1, 0.3, and 0.5 µm) indicated that ECR decreases and TCC increases with increasing gold coating thickness. Effect of gold coating on the substrate properties, contact surface tomography, and microhardness is analyzed and correlated to the observed behavior of ECR and thermal gap conductance. An attempt is made to understand and quantify the changes in the contact surface characteristics due to contact loading and heating, by measuring various surface topography parameters before and after the experimentation. Effect of thermal stresses (generated due to temperature variations) on ECR and TCC is studied and inclusion of an experimentally measured temperature dependent load correction factor is suggested in the theoretical models to take into account the effect of thermal stresses in contact assemblies.

Metallic Contacts

Electrical Contacts

Contact Materials

Thermal Contact Conductance (TCC)

Electrical Contact Resistance (ECR)

Contact Materials (Electric)

Thermal Contact Resistance (TCR)

Contact Conductance Cell

Instrumentation

The BTB/POZ Transcription Factor Miz-1 Is Required To Regulate The Commitment, Survival And Differentiation Of Early B And T Cell Lineages

Saba, Ingrid

01 1900

Les lymphocytes B et T sont issus de cellules progénitrices lymphoïdes de la moelle osseuse qui se différencient grâce à l’action de facteurs de transcription, cytokines et voies de signalisation, dont l’interleukine-7 (IL-7)/IL-7 récepteur (IL-7R). Le facteur de transcription c-Myc est exprimé par les cellules lymphoïdes et contrôle leur croissance et leur différenciation. Cette régulation transcriptionnelle peut être coordonnée par le complexe c-Myc/Myc-Interacting Zinc finger protein-1 (Miz-1). Le but de ce projet était de comprendre les mécanismes qui impliquent Miz-1 et le complexe c-Myc/Miz-1 dans le développement des lymphocytes B et T. Pour réaliser ce projet, des souris déficientes pour le domaine de transactivation de Miz-1 (Miz-1POZ) et des souris à allèles mutantes pour c-MycV394D, mutation qui empêche l’interaction avec Miz-1, ont été générées. La caractérisation des souris Miz 1POZ a démontré que l’inactivation de Miz-1 perturbe le développement des lymphocytes B et T aux stades précoces de leur différenciation qui dépend de l’IL-7. L’analyse de la cascade de signalisation IL-7/IL-7R a montré que ces cellules surexpriment la protéine inhibitrice SOCS1 qui empêche la phosphorylation de STAT5 et perturbe la régulation à la hausse de la protéine de survie Bcl-2. De plus, Miz-1 se lie directement au promoteur de SOCS1 et contrôle son activité. En plus de contrôler l’axe IL-7/IL-7R/STAT5/Bcl-2 spécifiquement aux stades précoces du développement afin d’assurer la survie des progéniteurs B et T, Miz-1 régule l’axe EBF/Pax-5/Rag-1/2 dans les cellules B afin de coordonner les signaux nécessaires pour la différenciation des cellules immatures. La caractérisation des souris c-MycV394D a montré, quant à elle, que les fonctions de Miz-1 dans les cellules B et T semblent indépendantes de c-Myc. Les cellules T des souris Miz-1POZ ont un défaut de différenciation additionnel au niveau de la -sélection, étape où les signaux initiés par le TCR remplacent ceux induits par IL-7 pour assurer la prolifération et la différenciation des thymocytes en stades plus matures. À cette étape du développement, une forme fonctionnelle de Miz-1 semble être requise pour contrôler le niveau d’activation de la voie p53, induite lors du processus de réarrangement V(D)J du TCR. L’expression de gènes pro-apoptotiques PUMA, NOXA, Bax et du régulateur de cycle cellulaire p21CIP1 est régulée à la hausse dans les cellules des souris Miz-1POZ. Ceci provoque un débalancement pro-apoptotique qui empêche la progression du cycle cellulaire des cellules TCR-positives. La survie des cellules peut être rétablie à ce stade de différenciation en assurant une coordination adéquate entre les signaux initiés par l’introduction d’un TCR transgénique et d’un transgène codant pour la protéine Bcl-2. En conclusion, ces études ont montré que Miz-1 intervient à deux niveaux du développement lymphoïde: l’un précoce en contrôlant la signalisation induite par l’IL-7 dans les cellules B et T, en plus de l’axe EBF/Pax-5/Rag-1/2 dans les cellules B; et l’autre tardif, en coordonnant les signaux de survie issus par le TCR et p53 dans les cellules T. Étant donné que les thymocytes et lymphocytes B immatures sont sujets à plusieurs rondes de prolifération, ces études serviront à mieux comprendre l’implication des régulateurs du cycle cellulaire comme c-Myc et Miz-1 dans la génération des signaux nécessaires à la différenciation non aberrante et à la survie des ces cellules. Enfin, les modèles expérimentaux, souris déficientes ou à allèles mutantes, utilisés pour ce travail permettront de mieux définir les bases moléculaires de la transformation maligne des lymphocytes B et T et de révéler les mécanismes conduisant au lymphome. / Signaling pathways control the differentiation and proliferation of blood cells, like B and T lymphocytes. They converge into regulating the activity of transcription factors that influence ultimately gene expression patterns. The transcription factor c-Myc is a central regulator of cellular proliferation and growth, and its deregulated expression has been demonstrated to be involved in many types of cancers, in particular lymphoma. Recent studies have shown that repression by c-Myc can be mediated by a complex formed with the BTB/POZ domain transcription factor Miz-1 (Myc Interacting Zinc finger protein-1). Given that both c-Myc and Miz-1 proteins are expressed in lymphoid precursors and since c-Myc has been shown to be important for B- and T-cell development, the aim of this thesis was to investigate the role of Miz-1 and the c-Myc/Miz-1 complex in regulating B and T cell survival, commitment and differentiation. To do so, mice expressing a non-functional Miz-1 protein lacking the BTB/POZ domain (Miz-1POZ) and knock-in mice expressing a mutant c-MycV394D allele that no longer interacts with Miz-1 were generated. B- and T-cell development requires the coordinated action of transcription factors and cytokines, in particular interleukin-7 (IL-7). The studies presented in this work demonstrated that mice deficient for the BTB/POZ domain of transcription factor Miz-1 almost entirely lack follicular B cells and T cells, since their progenitors fail to activate the JAK/STAT5 pathway and to up-regulate Bcl-2 upon IL-7 stimulation. Miz-1 exerts a dual role in the IL-7 receptor (IL-7R) pathway by directly repressing the JAK inhibitor SOCS1 and by activating Bcl-2 expression. In B cells, a functional form of Miz-1 is also required for the proper expression of early B cell genes like E2A and EBF. These data suggest that Miz-1 represents a new regulatory element of early B- and T-cell differentiation required for the regulation of the IL-7/IL-7R/STAT5/Bcl-2 axis by monitoring SOCS1 for survival and by regulating the EBF/Pax-5/Rag-1/2 axis for the proper commitment and differentiation of the B-cell lineage. The regulation exerted by Miz-1 in B and T cells is mostly likely independent of its interacting partner c-Myc, and seems specifically linked to the BTB/POZ domain of Miz-1. Mice deficient for the BTB/POZ domain of Miz-1 have additionally a severe differentiation block at the pre-T cell “-selection” checkpoint. Miz-1 deficient pre-T cells are highly apoptotic and do show cell cycle defects. This concurs with enhanced expression of p53-target genes such as p21CIP1, Bax, PUMA and Noxa, most likely induced by the DNA double-strand breaks generated during the V(D)J recombination of the TCR. Only the co-expression of rearranged TCR and Bcl-2 fully rescued Miz-1-deficient cell numbers and enabled them to differentiate into TCR+ cells. These data suggest that Miz-1 is required for both the regulation of the p53 response and proper expression of the pre-TCR to support the proliferative burst of pre-T cells. In conclusion, the studies presented in this thesis revealed the so far unknown implication of Miz-1 in B- and T-cell development. More specifically, Miz-1 exerts early regulatory functions by monitoring the IL-7/IL-7R signaling in B and T cells. It regulates later stages of differentiation by controlling the EBF/Pax-5/Rag-1/2 in B cells and the TCR expression and the p53 response in T cells. These studies and the generated mice model (conditional knock-out and knock-in) will help characterize the implications of transcription factors that have been causally implicated in the altered genetic programming found in hematopoietic malignancies due to their capacities to regulate cell cycle. Ultimately the characterization of Miz-1 and c-Myc functions in B and T cells will help better understand the mechanisms responsible for the emergence of leukemia and lymphoma.

Miz-1

c-Myc

IL-7R

Differentiation

Apoptosis

STAT5

SOCS1

p53

Miz-1

c-Myc

TCR

Différenciation

Apoptose

Bcl-2

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

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

CD8 T cell differentiation during immune responses

De Campos Pereira Lemos, Sara Sofia

23 May 2014

CD8 T cells are essential for the elimination of intracellular pathogens and tumor cells. Understanding how naïve CD8 T cells differentiate into effector cells capable of eliminating pathogens and to generate adequate memory cells during immune responses is fundamental for optimal T cell vaccine design. In this PhD thesis work we addressed two central questions: 1) What are the mechanisms by which early effector T cells could act as pro-inflammatory effectors? And what is their role in the immune response? 2) How heterogeneous are CD8 responses? Could different pathogens modulate CD8 T cell differentiation programs and be responsible for CD8 cell-to-cell heterogeneity? Could they also generate memory cells with different protection capacities? To address these questions related to the diversity of CD8 T cell differentiation during immune responses, we used the single cell RT-PCR technique to detect ex vivo expression of mRNA in each individual cell, and Brefeldin A injected mice to detect ex vivo intracellular proteins. As experimental system to evaluate in vivo cell activation we used T cell receptor transgenic (TCR-Tg) CD8 T cells. Since the use of TCR-Tg cells to study immune responses has been subjected to criticism (due to high frequency of naïve-precursor transfers), in a first Ms. we compared the behavior of TCR-Tg and endogenous (non-transgenic and present at low frequency) cells in the same mouse. We found fully overlapping behavior between these two cell populations, which reinforced the advantage of using TCR-Tg cells to study CD8 immune responses. In addition, we concluded that the frequency of naïve-precursors do not induce diversity on CD8 T cell differentiation patterns. In a second Ms. we evaluated the impact of different pathogens in the diversity of CD8 T cell properties during two different immune responses: OT1 TCR-Tg cells (specific for OVA antigen) in the response to LM-OVA (Listeria Monocytogenes expressing OVA) infection; and P14 TCR-Tg cells (specific for GP33 epitope) in the response to Lymphocytic choriomeningitis vírus (LCMV) infection. We found that OT1 and P14 cells had different properties. As this difference could also be attributed to the different TCR avidity between OT1 and P14 cells, we then compared the behavior of P14 and OT-1 cells in the same mouse, co-injected with LM-OVA and LM-GP33. Since no differences were then detected, these results demonstrated that priming with different pathogens generates CD8 T cells with different characteristics that are not determined by TCR usage, but rather by the infection context. In addition, when looking for the protection capacity of endogenous CD8 memory cells generated in bacterial or viral context, we found that memory cells generated after LCMV priming were more efficient in responding to a second challenge, than memory cells generated after LM-GP33 priming. We also found that this better protection is associated with a T cell effector memory (TEM) phenotype associated with the LCMV infection, in contrast with a T cell central memory (TCM) phenotype generated after LM-OVA infection. These results demonstrate that different pathogens are responsible for diversity of CD8 T cell differentiation patterns and that even when distinct pathogens are efficiently eliminated during the primary immune response the quality of the memory generated may differ. In a third Ms. we studied the mechanisms by which effector CD8 T cells attracted other cell types in the early days of an immune response. We used two experimental systems: the response of OT1 TCR-Tg cells to LM-OVA infection; and the response of anti-HY TCR-Tg cells to male cells ("sterile"-non infectious context). In both cases we found that immediately after activation, CD8 T cells expressed high levels of pro-inflammatory cytokines and chemokines (such as TNFα, XCL1, CCL3 and CCL4). (...)

[SDV:IMM] Life Sciences/Immunology

[SDV:IMM] Sciences du Vivant/Immunologie

CD8 T cell

Differentiation

Effector

Inflammatory

Memory

In vivo

Listeria Monocytogenes

LCMV

TCR-Transgenic cells

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

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