Global ETD Search

491	Host-parasite relationship in trichiniasis - a comparative study of different strains of Trichinella Spiralis Siddiqi, Mohammad Nasim January 1970 (has links) Note: Parasitology T. spiralis
492	In vitro studies on the characterization of subpopulations of murine thymocytes and thymus-derived lymphocytes / Lause, David Bruce January 1975 (has links) No description available. Biology T cells
493	Histidine Decarboxylase Expression in Human CD4+ T Lymphocytes Nguyen, Binh January 2024 (has links) The early phase of allergic reactions is largely dominated by IgE-mediated degranulation of mast cells and basophils. Mast cells and basophils release mediators which include histamine, prostaglandins, leukotrienes, cytokines, etc. Histamine is a biogenic compound that can directly cause physiological changes that ultimately contribute to allergy and asthma symptoms. The current literature focused on the study of histamine production from “professional histamine producers”, such as mast cells and basophils in allergic diseases. Previous research had shown that activation of allergic specific T cells led to airway narrowing independent of basophil activation 6-hour post exposure. It was therefore possible that the activation of T cells may release histamine which contributed to the airway narrowing observed. This project aimed to determine expression of histidine decarboxylase (HDC) in T lymphocytes, which is the gene encoding the enzyme solely responsible for the production of histamine. We found that HDC is expressed in rare T cell populations by the bioinformatic analysis of publicly available datasets, and we found that the activation of human primary CD4+ T cells by anti-CD3/CD28 did not lead to the upregulation of HDC by qPCR. The activation of CD4+ T cells in non-allergic donors led to a LOG2FC of HDC to B2M housekeeping gene of: -1.0 +/- 0.48 at 6-hour, -1.3 +/- 0.23 at 24-hour, -2.2 +/- 0.32 at 72-hour. The activation of CD4+ T cells in allergic donors led to a LOG2FC of HDC of: -0.48 +/- 0.13 at 6-hour, -2.1 +/- 0.35 at 24-hour, -4.1 +/- 1.1 at 72-hour. In conclusion, HDC expressing T cells were rare and of low expression level. The activation of CD4+ T cells did not upregulate HDC and therefore it was unlikely that T cell derived histamine contribute to allergic manifestations. / Thesis / Master of Science in Medical Sciences (MSMS) Allergy T cells Histamine
494	Compactness in categories and its application in different categories Thulapersad, Sarah 12 1900 (has links) In the paper [HSS] Herrlich, Salicrup and Strecker were able to show that Kuratowski / Mrowka's Theorem concerning compactness for topological spaces could be applied to a wider setting. In this dissertation, which is based on the paper [F subscript 1], we interpret Kuratowski / Mrowka's result in the category R-Mod. Chapter One deals mainly with the preliminary definitions and results and we also show that there is a 1-1 correspondence between torsion theories and standard factorisation systems. In Chapter Two we, obtain for every torsion theory T, a theory of T-compactness which is an extension of the definition of compactness found in [HSS]. We then obtain a characterisation of T-compactness under certain conditions on the ring R and torsion theory T. In Chapter Three we examine the class of T-compact R-modules more closely when the ring R is T-hereditary and T-noetherian. We also obtain further characterisation of T-compactness under these additional conditions. In Chapter Four we show that many topological results have analogues in R-Mod. / Mathematical Sciences / M. Sc. (Mathematics) Torsion theory Radical Factorisation structure Hereditary T-dense T-closed T-compact T-hereditary T-injective T-noetherian p-divisible 512.55 THUL Categories (Mathematics)
495	Impact of lymphopenia-inducing regimens and energetic resources on the fate of adoptively transferred T cells / Impact des conditionnements lymphopéniques et de l’environnement métabolique sur le devenir des cellules T greffées Klysz, Dorota 08 July 2014 (has links) Les thérapies anti-tumorales se sont considérablement améliorées au cours de la dernière décennie. Toutefois, les traitements utilisés actuellement rencontrent d'importantes limitations, notamment dans le cas de cancers métastatiques, révélant l'urgence de développer de nouvelles approches. Ainsi, l'immunothérapie par transfert adoptif de cellules T représente une approche innovante particulièrement prometteuse. Son principe s'appuie sur l'injection de cellules T autologues spécifiques d'antigènes tumoraux, préalablement manipulées et amplifiées ex vivo, chez des patients rendus lymphopéniques par chimiothérapie et/ou radiothérapie. Toutefois, même si l'état lymphopénique est induit par ces 2 protocoles de conditionnements, leurs effets sur l'environnement de l'hôte ainsi que sur le devenir des cellules T greffées étaient, jusqu'à nos travaux, mal connus. Par le biais de modèles murins, nous avons pu démontrer que le devenir des cellules T diffère après transfert dans des souris irradiées ou traitées par chimiothérapie (Bu/Cy). Ainsi, après transfert dans des animaux irradiés, on observe une prolifération préférentielle des cellules T CD8, dépendante de l'IL-7, est observée alors qu'un transfert chez des souris traitées Bu/Cy se traduit par une prolifération rapide, indépendante de l'IL-7, des cellules T CD4. De plus, ces comportements sont associés à d'importantes modifications de l'environnement généré chez l'hôte. Plus spécifiquement, nous avons démontré, dans les organes lymphoïdes secondaires, que la localisation et la représentation des différentes sous-populations de cellules dendritiques présentes étaient différentiellement modulées par le type de conditionnement utilisé. Par ailleurs, l'élimination spécifique des cellules CD11c+ chez des souris traitées Bu/Cy était accompagnée d'une inhibition importante de la prolifération rapide des cellules T CD4 greffées. L'ensemble de nos travaux montrent que les traitements lymphopéniques génèrent des environnements distincts capables de moduler le devenir des cellules T greffées.Durant ma thèse, nous avons également abordé de façon originale un aspect novateur de l'environnement en étudiant le rôle potentiel des nutriments comme régulateurs métaboliques des fonctions effectrices des cellules T. La glutamine est l'acide aminé le plus abondant du plasma, pouvant contribuer aux besoins bionénergétiques et biosynthétiques des cellules T en prolifération. Nous avons démontré dans nos travaux qu'une carence en glutamine lors de l'activation de cellules T CD4 par leur TCR entrainait un délai dans l'activation de la voie mTOR, une réduction de la production intracellulaire d'ATP aux temps précoces et se traduisait par une diminution de la prolifération. De plus, ces conditions étaient associées à une augmentation de la conversion de cellules CD4 T naïves, via TGFβ, en cellules régulatrices Foxp3+ , y compris en condition de polarization Th1. Par contre, la carence en glutamine n'a pas inhibé la différenciation Th2. Les cellules T Foxp3+ ainsi générées en condition limitante de glutamine présentaient in vivo des fonctions suppressives aussi efficaces que celles des cellules régulatrices nTregs. En effet, elles ont la capacité de bloquer l'induction de la colite provoquée par la greffe de cellules T effectrices dans des souris Rag2-/- . Nos travaux démontrent ainsi que l'environnement métabolique peut être un régulateur clé de la différenciation des cellules T CD4. L'ensemble de mes travaux de thèse ont mis en évidence de nouveaux paramètres capables de potentiellement modifier la survie et la réactivité des cellules T greffées. / Anti-tumor therapies have improved significantly over the decade. However, the currently used treatments have important limitations, notably for metastatic cancers, and the development of new approaches is therefore a high priority. Adoptive T cell therapy (ACT) represents an innovative strategy that has shown much promise. This therapy is based on the infusion of tumor-specific T cells, which have been manipulated and expanded ex vivo, into patients who have been rendered lymphopenic by chemotherapy and/or irradiation. It is interesting to note that while lymphodepletion is attained by the vast majority of conditioning regimens, the effects of these protocols on the host environment and potentially, on the destiny of adoptively-transferred T cells had not been elucidated prior to the studies which we initiated. Using a murine model, we found that the fate of adoptively-transferred T cells differs markedly in mice rendered lymphopenic by sub-lethal irradiation as compared to a busulfan/cyclophosphamide (Bu/Cy) chemotherapy regimen. Irradiation-mediated lymphopenia resulted in a skewed IL-7-dependent proliferation of donor CD8+ T cells, whereas Bu/Cy treatment led to an increased IL-7-independent, rapid CD4+ T cell proliferation. These alterations in T cell proliferation were associated with striking changes in the host microenvironment. More specifically, we demonstrated that the proportion and localization of different dendritic cell (DC) subsets in lymphoid organs were differentially affected by the type of conditioning. Furthermore, we found that these DC controlled the rapid donor CD4+ T cell division detected in Bu/Cy-treated mice as depletion of CD11c+ DC inhibited this proliferation. Altogether, our studies demonstrate that lymphopenic regimens generate distinct host environments which modulate the fate of adoptively-transferred T cells. Durind my PhD, we also investigated an original and novel aspect of the microenvironement by studying the potential role of nutrients as metabolic regulators of T cell effector function. Glutamine is the most abundant amino acid in the plasma and contributes to the bioenergetic and biosynthetic requirements of proliferating T cells. Here, we demonstrated that activation of CD4+ T cells under glutamine-deprived conditions results in a delayed mTOR activation with reduced early ATP production and decreased proliferation. Moreover, these conditions resulted in the conversion of naïve CD4+ T cells into Foxp3+ regulatory T cells (Tregs). This de novo Treg differentiation occurred even under Th1-polarizing conditions and was TGFβ-dependent. Interestingly, glutamine deprivation did not inhibit Th2 differentiation. Importantly, these converted Foxp3+ T cells showed enhanced in vivo persistence and were highly suppressive, completely protecting Rag-deficient mice from the development of autoimmune inflammatory bowel disease as efficiently as natural-occuring Tregs. Thus, our data reveal the external metabolic environment to be a key regulator of a CD4 T lymphocyte's differentiation. Altogether, the data generated during my PhD provide new insights into the identification of parameters that can potentially alter the survival and reactivity of adoptively-transferred T cells. Cellules T Fonctions effectrices Fonctions régulatrices Métabolisme Glutamine Transfert adoptif de cellules T Lymphocyte T T effector functions Regulatory functions T cell metabolism Glutamine Adoptive T cell therapy
496	Compactness in categories and its application in different categories Thulapersad, Sarah 12 1900 (has links) In the paper [HSS] Herrlich, Salicrup and Strecker were able to show that Kuratowski / Mrowka's Theorem concerning compactness for topological spaces could be applied to a wider setting. In this dissertation, which is based on the paper [F subscript 1], we interpret Kuratowski / Mrowka's result in the category R-Mod. Chapter One deals mainly with the preliminary definitions and results and we also show that there is a 1-1 correspondence between torsion theories and standard factorisation systems. In Chapter Two we, obtain for every torsion theory T, a theory of T-compactness which is an extension of the definition of compactness found in [HSS]. We then obtain a characterisation of T-compactness under certain conditions on the ring R and torsion theory T. In Chapter Three we examine the class of T-compact R-modules more closely when the ring R is T-hereditary and T-noetherian. We also obtain further characterisation of T-compactness under these additional conditions. In Chapter Four we show that many topological results have analogues in R-Mod. / Mathematical Sciences / M. Sc. (Mathematics) Torsion theory Radical Factorisation structure Hereditary T-dense T-closed T-compact T-hereditary T-injective T-noetherian p-divisible 512.55 THUL Categories (Mathematics)
497	Lymphomes Natural-Killer T cells (NKT) : impact des stimulations antigéniques chroniques et mécanismes de la lymphomagénèse / Natural-Killer T cells (NKT) lymphomas : impact of chronic antigenic stimulations and mechanisms of lymphomagenesis Robinot, Rémy 05 December 2017 (has links) Les lymphomes T périphériques (PTCL) sont des néoplasmes rares et agressifs représentant environ 12% des lymphomes chez l’Homme. Nos travaux récents dans des souris p53-/- ont révélé une nouvelle entité de PTCL, émergeant de cellules Natural-Killer T-cell (NKT), un type particulier de lymphocyte T reconnaissant des antigènes lipidiques. Nous avons montré que ces lymphomes NKT (PTCL-NKT) présentent des caractéristiques de NKT stimulés chroniquement, et que la lymphomagenèse est initiée via l’activation chronique du TCR. Chez l’Homme, de nombreux PTCL sont suspectés pour être associés à des stimulations antigéniques chroniques, mais les mécanismes de transformation impliqués sont encore mal connus. Borrelia burgdorferi (Bb), l’agent responsable de la maladie de Lyme, provoque des infections chroniques dont l’implication dans certains lymphomes T cutanés (CTCL) a été suggérée. Cependant, cette observation manque de preuves cliniques et expérimentales. De manière intéressante, Bb est connue pour exprimer des glycolipides activateurs des NKT. Nous avons donc infecté des souris p53-/- avec des Bb vivantes, et montré que l’infection augmente significativement la fréquence des PTCL-NKT. Par traitement antibiotique précoce de souris infectées et par injections de Bb inactivées, nous avons également démontré que la chronicité de l’infection est nécessaire au développement de ces lymphomes. L’analyse phénotypique de ces PTCL-NKT a confirmé nos observations précédentes, montrant des caractéristiques de cellules NKT activées chroniquement, telles que l’expression de marqueurs d’activation et d’exhaustion (perte de NK1.1, surexpression de PD-1). Ces résultats suggèrent une implication de Borrelia dans la lymphomagenèse T. En se basant sur l’analyse de différents marqueurs phénotypiques et de leur production cytokinique, nous avons également montré que ces lymphomes présentent un profil dérégulé se rapprochant du sous-type NKT2. Une étude génomique par séquençage whole-exome sur 6 PTCL-NKT a révélé de larges pertes récurrentes du chromosome 13. Au sein de la zone minimale de délétion, nous avons identifié Jarid2, codant un facteur épigénétique impliqué dans le développement NKT par une activité histone-methytransférase. Ce gène est retrouvé altéré dans 20% des CTCL. De manière intéressante, les souris Jarid2-/- présentent une expansion périphérique de NKT au profil immature/NKT2, partageant donc des caractéristiques avec les PTCL-NKT. La perte de Jarid2 a été détectée dans presque tous les PTCL-NKT. Nous avons confirmé la perte de Jarid2 au niveau ARN et protéique. Nos résultats préliminaires montrent une hypométhylation de la lysine 9 de l’histone H3 (H3K9), la cible de Jarid2, soutenant un effet fonctionnel dans la physiopathologie des PTCL-NKT. Par conséquent, nous pensons que la perte de Jarid2 pourrait être un événement important de la lymphomagenèse NKT, puisque de plus en plus d’altérations de facteurs épigénétiques sont retrouvées dans les PTCL humains. Pour réponse à cette question, nous sommes notamment en train de générer des souris p53-/- x Jarid2-/-. En conclusion, nos données viennent renforcer le concept selon lequel certaines infections peuvent initier la transformation des cellules T par l’activation chronique du TCR. Nous avons également identifié un nouveau facteur épigénétique potentiellement impliqué dans la lymphomagenèse NKT / Peripheral T-cell lymphomas (PTCL) are aggressive and heterogeneous neoplasms that represent around 12% of Human lymphomas. Our recent work in p53-/- mice revealed a new PTCL entity, arising from Natural-Killer T-cell (NKT), a particular type of T cell recognizing lipidic antigens. We found that NKT lymphomas (NKTL) present features of chronically stimulated NKT-cells and that lymphomagenesis is driven through chronic TCR activation by microbial glycolipids. In human, many PTCL are suspected to be associated with chronic antigenic stimulation, but this transformation mechanism is still poorly understood.Borrelia burgdorferi (Bb), the causative agent of Lyme disease, induces chronic infection and has recently been suggested to be involved in cutaneous T-cell lymphomas (CTCL). However, this observation lacks clinical and experimental proofs. Interestingly, Bb is known to express NKT-activating glycolipids. We therefore infected p53-/- mice by live intradermal Bb injection and showed that Bb infection significantly increased NKTL rate. Phenotypic characterization of these NKTL confirmed our previously described features of chronically stimulated NKT-cells, with expression of activation and exhaustion markers (loss of NK1.1, upregulation of PD-1). Based on surface markers, transcription factors and cytokine production analysis, we also found that our lymphomas mostly present a NKT2 subtype profile, sometimes surprisingly mixed with NKT17 or NKT1. Genomic study by whole-exome sequencing on few of these lymphomas revealed recurrent large losses in the chromosome 13. Within the minimal deletion region, we identified Jarid2, a gene involved in NKT development by epigenetic regulation and which is found altered in 20% of CTCL. Jarid2 loss was detected in almost all NKTL. Interestingly, Jarid2-/- mice show increased NKT number in the periphery with an immature/NKT2 phenotype, sharing features with our NKTL.Thus, we believe that Jarid2 loss may be an important event in NKT lymphomagenesis, as more and more epigenetic factors are found mutated in several human PTCL. To answer this question we are currently breeding p53-/- x Jarid2-/- mice. In conclusion, our data reinforced the concept that chronic bacterial activation of T-cells through their TCR can effectively drive T-cell transformation. We also identified a new potential epigenetic factor that may be involved in lymphomagenesis Lymphomes T périphériques Natural-Killer T cell Borrelia burgdorferi T-Cell Receptor P53 Peripheral T-cell lymphomas Natural-Killer T cells Borrelia burgdorferi T-Cell Receptor P53 616.99
498	Caractérisation phénotypique et fonctionnelle des lymphocytes T infiltrants dans les lymphomes B humains / Phenotypic and functional characterization of infiltrating T cells in human B-cell lymphomas Le, Thi Kieu Suong 30 April 2015 (has links) Les lymphomes B sont des cancers du système lymphatique se développant à partir des cellules B. Il devient évident que le développement des cellules B malignes dépend d’interactions avec les cellules immunes dans leur microenvironnement. Nous avons étudié la caractérisation des lymphocytes T intra tumoraux afin de comprendre leur contribution dans la lymphomagenèse et leur potentiel thérapeutique dans les lymphomes B comme le lymphome diffus à grandes cellules B (DLBCL), le lymphome folliculaire (FL) et le lymphome Hodgkinien classique (cHL)Nous avons mis en évidence une différence importante, quantitative et qualitative, entre la composition immunitaire de différents lymphomes B, notamment au niveau des lymphocytes T intra tumoraux. Le FL se caractérise par une accumulation des lymphocytes T régulateurs (Tregs) exprimant ICOS, pouvant supprimer les cellules B lymphomateuses. La génération des Tregs ICOS+ est favorisée par le contact avec les cellules B lymphomateuses exprimant ICOSL. Quant à lui, le DLBCL a beaucoup de lymphocytes TCD8 coexprimant PD1 et TIM3 possédant un état de dysfonctionnement dit « épuisement », lymphocytes dont la proportion est corrélée à leur niveau de dysfonctionnement et à leur capacité de réponse au blocage des récepteurs inhibiteurs. Enfin, dans certains lymphomes B, en particulier le cHL, nous avons découvert une sous population de TCD8, dite « TFH-like » pour leur similarité phénotypique et fonctionnelle avec les lymphocytes T auxiliaires folliculaires (TFH). Ces données indiquent l’hétérogénéité des composants immunitaires entre différents lymphomes B et sont une piste pour une future thérapie ciblée dans le traitement du lymphome. / B-cell lymphomas represent a heterogeneous group of cancers that affect B cells in the lymphatic system. It has become evidence that malignant B cells depend on various interactions with microenvironmental immune cells for their development. Our study focuses on characterization of intra-tumoral T cells in order to understand their contribution in pathogenesis and their therapeutic potentials in the most frequent B cell-lymphoma such as Diffuse large B-cell lymphoma (DLBCL), Follicular lymphoma (FL) and classical Hodgkin lymphoma (cHL).During this work, we have demonstrated a significant quantitative and qualitative difference between different B-cell lymphoma immune composition, especially between their intra-tumoral T cells. FL is characterized by the accumulation of regulatory T cells (Tregs) expressing ICOS, with ability to suppress lymphoma B cells. Generation of Tregs ICOS+ is prompted by cell contact with the lymphoma B cells expressing ICOSL. On the other hand, DLBCL have high level of TCD8 coexpressing PD1 and TIM3 displaying an exhaustion state, which proportion is correlated with their dysfunction level and with their responsiveness to inhibitor receptors blockade. Finally, in some B-cell lymphoma cases, especially cHL, we found the existence of a TCD8 subset, called TFH-like due to their phenotypic and functional similarity with follicular helper T cells (TFH).These data show heterogeneity of immune components between the different B lymphomas, and give opportunity for targeted therapy in lymphoma treatment Lymphomes B Lymphocytes T régulateurs Lymphocytes T épuisés Lymphocytes T auxiliaires folliculaires B-Cell lymphomas Regulatory T cells Exhausted T cells Follicular helper T cells
499	MicroRNA and Epigenetic Controls of CD4+ T cells' Activation, Differentiation and Maintenance Li, Chaoran January 2014 (has links) <p>As a major component of the adaptive immune system, CD4+ T cells play a vital role in host defense and immune tolerance. The potency and accuracy of CD4+ T cell-mediated protection lie in their ability to differentiate into distinct subsets that could carry out unique duties. In this dissertation, we dissected the roles and interplays between two emerging mechanisms, miRNAs and epigenetic processes, in regulating CD4+ T cell-mediated responses. Using both gain- and loss-of-function genetic tools, we demonstrated that a miRNA cluster, miR-17-92, is critical to promote Th1 responses and suppress inducible Treg differentiation. Mechanistically, we found that through targeting Pten, miR-17-92 promotes PI3K activation. Strong TCR-PI3K activation leads to the accumulation of DNMT1, elevated CpG methylation in the foxp3 promoter, and suppression of foxp3 transcription. Furthermore, we demonstrated that an epigenetic regulator, methyl CpG binding protein 2 (MeCP2), is critical to sustain Foxp3 expression in Tregs, and to support Th1 and Th17 differentiation in conventional CD4+ T cells (Tcons). In Tregs, MeCP2 directly binds to the CNS2 region of foxp3 locus to promote its local histone H3 acetylation; while in Tcons, MeCP2 enhances the locus accessibility and transcription of miR-124, which negatively controls SOCS5 translation to support STAT1, STAT3 activation and Th1, Th17 differentiation. Overall, miRNAs and epigenetic processes may crosstalk to control CD4+ T cell differentiation and function.</p> / Dissertation Immunology differentiation epigenetics maintenance microRNA regulatory T cell T cell
500	The Role of ATM in Promoting Normal T cell Development and Preventing T Cell Leukemogenesis Matei, Irina 24 September 2009 (has links) The immune system recognizes and eliminates an enormous array of pathogens due to the diverse antigen receptor repertoire of T and B lymphocytes. However, the development of lymphocytes bearing receptors with unique specificities requires the generation of programmed double strand breaks (DSB) coupled with bursts of proliferation, rendering lymphocytes susceptible to mutations and oncogenic transformation. Thus, mechanisms responsible for monitoring global genomic integrity, such as those coordinated by the ATM (ataxia-telangiectasia mutated) kinase, must be activated during lymphocyte development to limit the oncogenic potential of antigen receptor locus recombination. I show that ATM deficiency compromises TCRα recombination and the post-mitotic survival of T-cell receptor αβ (TCRαβ+) CD4+CD8+ (DP) thymocytes, providing a molecular and developmental basis for the immunodeficiency characteristic of ATM loss. Moreover, I show that in early thymocyte progenitors undergoing TCRβ recombination, ATM loss leads to cell cycle defects and developmental arrest, likely facilitating the acquisition of mutations that contribute to leukemogenesis. Using ATM deficiency as a murine model of T cell precursor acute lymphoblastic leukemia (T-ALL), I demonstrate that IL-7 signaling, a critical survival and proliferation signal during early stages of normal thymocyte development, is also required for leukemic maintenance. Moreover, we show for the first time that in normal and leukemic thymocyte precursors, interleukin 7 receptor (IL-7R) expression and function are controlled by Notch signaling, a key determinant of T cell fate. Collectively, these findings provide insight into the mechanisms by which ATM promotes normal lymphocyte development and protects from neoplastic transformation, while establishing the groundwork for assessing the molecular events that lead to the initiation and stepwise progression of T cell leukemogenesis. ATM T cell development T cell leukemia 0379

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