Global ETD Search

101	The Role of TNFR Family Members GITR and CD30 on CD8 T Cell Responses Snell, Laura Margaret Lucette 16 August 2013 (has links) GITR and CD30 are T cell costimulatory members of the TNFR superfamily known to regulate T cell responses. Elucidating the mechanisms whereby these receptors modulate T cell responses is crucial for maximizing their potential for immunotherapy. In this thesis, I examine the role of GITR and CD30 on CD8 T cell responses to influenza virus. I show that CD8 T cell intrinsic GITR is required for both maximal primary and secondary CD8 T cell expansion to influenza, while in contrast, CD30 is dispensable for anti-influenza CD8 T cell responses. GITR does not impact on CD8 T cell proliferation or homing, however, it mediates CD8 T cell survival signaling. GITR induces TRAF2/TRAF5 dependent, but TRAF1 independent, NF-κB activation, resulting in the upregulation of the pro-survival molecule Bcl-xL. Furthermore, I show that GITR on CD8 T cells can augment viral clearance and confer protection from death upon severe influenza infection of mice. Similarly, CD30 also elicits protection from death upon severe influenza infection, although the cells responsible for this effect remain to be elucidated. In this thesis, I also show that in unimmunized mice GITR expression is upregulated to higher than basal levels on a population of CD8 memory phenotype cells in the bone marrow. In contrast, CD8 memory phenotype T cells in the spleen and LN have GITR levels similar to that on naïve T cells. The upregulation of GITR in the bone marrow is IL-15 dependent and therefore, GITR serves as a marker for cells that have recently received an IL-15 signal. Furthermore, GITR is required for the persistence, but not for the homeostatic proliferation of CD8 memory phenotype T cells in the bone marrow. Therefore, GITR plays a key role for CD8 T cell intrinsic responses to influenza, as well as for the persistence of CD8 memory phenotype T cells. CD8 T cell GITR influenza T cell memory CD30 costimulation TNFR superfamily 0982
102	Preservation of male fertility in childhood acute leukemia : an experimental study addressing novel strategies and putative risks / Hou, Mi, January 2007 (has links) Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 5 uppsatser.
103	Development of improved T cell receptor beta variable gene identification technology and its application post hematopoietic stem cell transplantation Brewer, Jamie Leigh. January 1900 (has links) Thesis (Ph. D.)--West Virginia University, 2005. / Title from document title page. Document formatted into pages; contains vi, 139 p. : ill. Vita. Includes abstract. Includes bibliographical references.
104	L'antisynapse, un complexe de signalisation transitoire situé aux antipodes de la synapse immunologique / The antisynapse, a transient signaling complex located at the antipodes of the immunological synapse Guedj, Chloé 04 July 2014 (has links) Lors d’une réponse immune, les lymphocytes T et les cellules présentatrices d’antigènes (CPA) interagissent entre elles. La synapse immunologique (SI), interface de contact entre les deux cellules, est le site où une cascade de signalisation se met en place. Les lymphocytes T subissent alors un profond réarrangement au niveau de la membrane plasmique et du cytoplasme : les protéines impliquées dans cette signalisation sont alors recrutées à la synapse immunologique. Nous nous intéressons à une nouvelle structure appelée “l’antisynapse” qui se localise au pôle opposé à celui de la synapse immunologique. L’objectif de notre étude est de déterminer la composition de cette nouvelle structure et sa cinétique d’apparition et de disparition. Afin d’étudier cette structure, nous faisons des conjugués in vitro entre des CPA et des lymphocytes T et nous observons la formation de ces contacts sur cellules vivantes ou cellules fixés. L’antisynapse est composée de molécules de signalisations que l’on retrouve classiquement à la synapse immunologique, tels que LAT, CD3, lck ou la PI3K. Grâce à la sonde fluorescente ROZA récemment développée au laboratoire1, nous avons montré que la kinase ZAP-70 est activée à l’antisynapse. Ces observations sont cohérentes avec le fait que nous avons déjà observé la présence de protéines avec des tyrosines phosphorylées à ce pôle. Cette structure précoce et transitoire s’observe fréquemment et apparaît très souvent avant que la synapse ne puisse être détectée. Son apparition est indépendante de la signalisation en aval du TCR et peut être déclenchée par un signal d’adhésion. D’autre part, le cytosquelette de microtubules semble jouer un rôle majeur dans sa disparition. Le rôle de l’antisynapse est toujours en cours d’étude mais nous avons déjà pu montrer qu’elle constituait un point de stockage pour les protéines destinées à former la synapse immunologique au moment de sa formation. Grâce à cette structure nous essayons de mieux comprendre comment le signalosome s’assemble dans la cellule T. Nous voulons également comprendre comment une telle structure peut apparaître aussi rapidement et quelles sont les voies de signalisation mises en jeu dans sa formation. / During the immune response, T lymphocytes and antigen presenting cells (APC) are known to develop strong interactions. The immunological synapse (IS), structure established at the interface between the two cells, is the site where a cascade of signaling events is initiated and may lead to a physiological response. T lymphocyte undergoes a profound rearrangement in the plasma membrane and in the cytoplasm: proteins which are involved in the signaling are recruited to the immunological synapse. We have recently described a new structure that we have called antisynapse (ASI), located at the cell pole opposite to the synapse1. The purpose of this work is to characterize the components of this new structure and their kinetic of appearance and disappearance. To study this structure, we made in vitro contact between APC and T lymphocytes and we observed these conjugates either in live or fixed conditions. Surprisingly, the antisynapse contains most of the signaling molecules classically reported as components of the immunological synapse such as LAT, CD3, Lck or PI3K. By using the fluorescent probe ROZA that we recently developed1, we have shown that ZAP-70 is activated at the antisynapse. This observation is consistent with the fact that we have also observed the presence of tyrosine-phosphorylated proteins at the ASI. Interestingly, we have observed that LFA-1, a protein involved in the adherence, is also found at the ASI. Our results indicate that this transient structure develops frequently and appears rapidly after the contact between the T cell (around one minute) and the APC. Surprisingly, antisynapse formation is independent on TCR signaling but is triggered by adhesion. Furthermore, it disappears using the microtubule network. The role of the antisynapse is currently under investigation but we have shown that it constitutes a stock of proteins ready to go to the forming immune synapse. We currently try to take advantage of this structure to better understand how the T cell signalosome may assemble and to find out if, functionally, the T cell takes advantage of this structure. We also try to understand how this paradoxical structure can appear so rapidly and what are the signaling pathways involved in its establishment. Lymphocyte T Synapse immunologique Signalisation lymphocytaire T cell Immune synapse T cell signaling 571.96
105	Perpetuation Of T cell Memory : A Role For Anti-Idiotypic T Cells Lal, Girdhari 08 1900 (has links) (PDF) No description available. Cells Cell Pathology T Cells T Cell Clone T Cell Memory Cell Biology
106	Differential TCR signaling dynamics tune graded gene expression in early-activating CD8+ T cells Gallagher, Michael P. 13 November 2020 (has links) The strength of peptide:MHC interactions with the T cell receptor (TCR) is correlated with the time to first cell division, the relative scale of the effector cell response, and the graded expression of activation-induced proteins. The TCR proximal tyrosine kinase ITK simultaneously influences many biochemically separate signaling cascades. T cells lacking ITK exhibit selective impairments in effector T cell responses after activation, but under the strongest signaling conditions ITK activity is dispensable. To gain insight into whether TCR signal strength and ITK activity tune observed graded gene expression through unequal activation of disparate signaling pathways, I examined NFAT, NF-κB and MAP kinase pathways during early activation of individual naïve OT-I CD8+ T cells using peptide-loaded antigen presenting cells. Utilizing both measurement of transcription factor translocation in single T cell nuclei and conventional phospho-flow cytometry, I observed digital activation of Erk-MAPK and NFAT1 at all peptide doses and avidities. However, NF-κB activation showed a graded response to variation in TCR signal strength and was more sensitive to treatment with an ITK inhibitor. Inhibitor-treated cells showed poor induction of AP-1 factors Fos and Fosb, NF-κB response gene transcripts, and survival factor Il2 transcripts. ATAC-seq analysis revealed genomic regions most sensitive to ITK inhibition are enriched for NF-κB and AP-1 motifs. Together, these data indicate a key role for ITK in orchestrating optimal activation of separate TCR downstream pathways, specifically aiding NF-κB activation. More broadly, I describe a mechanism by which variation in TCR signal strength can produce patterns of graded gene expression in activated T cells. Immunology T cell Receptor Signaling TCR ITK T cell Activation Immunity
107	Characterizing how glycerol monolaurate (GML) affects human T cell signaling and function Zhang, Michael Sining 01 May 2018 (has links) The T cell receptor (TCR) activation induced signaling cascade is a major driver of T cell effector responses such as cytokine production and actin cytoskeletal rearrangement. Characterizing chemical modulators of this pathway has the benefits of both revealing basic science knowledge about these signaling processes and providing foundation for development of novel therapeutics. Glycerol Monolaurate (GML) is a naturally occurring fatty acid monoester that is found as a monoglyceride in human breast milk and coconut oil. It is widely utilized in food, cosmetics, and homeopathic supplements. GML is a potent antimicrobial agent that targets a wide range of bacteria, fungi, and enveloped viruses. Because of this, GML has been developed as a preventative for menstrual associated Toxic Shock Syndrome, and is being tested to prevent HIV transmission and superficial skin infections. Interestingly, GML suppresses mitogen induced lymphocyte proliferation and inositol triphosphate production, suggesting that GML has immunomodulatory functions. This thesis mechanistically examined how GML affects human primary T cells. Chapter III describes how GML potently altered order and disorder dynamics in the plasma membrane that resulted in reduced membrane-localized clustering of the proteins LAT, PLC-γ, and AKT, events integral for proper TCR signal propagation. Altered membrane signaling events induced selective inhibition of TCR-induced signaling events. Specifically GML reduced the phosphorylation of the regulatory P85 subunit of PI3K, and AKT and abrogated calcium influx. Functionally, GML treatment potently reduced TCR-induced production of the cytokines IL-2, IFN-γ, TNF-α, and IL-10. Chapter V shows that GML causes the mis-localization of the ARPC3 subunit of the Arp2/3 complex that leads to the formation of abnormal filopodia structures, and reduced cellular adhesion. Chapter V shows that human serum albumin binds directly to GML on the 12 carbon acyl chain. This interaction reverses GML induced suppression of TCR-induced formation of LAT, PLC-γ1, and AKT microclusters at the plasma membrane, AKT phosphorylation, and cytokine production. These findings establish GML as a T cell suppressive agent in addition to an antimicrobial agent. This observation reveals the potential role of naturally occurring GML in human breast milk in the formation of microbiota and immune tolerance in the infant gastrointestinal tract. It also allows for optimization of the current applications of GML in various commercial products and therapeutic strategies. Finally this information provides the rationale to investigate GML in new remedial avenues as a topical agent to treat excessive inflammation in the skin, and vaginal and gut mucosal regions. Actin Albumin Glycerol Monolaurate T cell T cell receptor signaling Microbiology
108	Developing a CRISPR-Mediated Knockout TCR Human T Cell Line for Use in Cloning Antigen-Specific T Cell Receptors January 2020 (has links) abstract: Adoptive transfer of T cells engineered to express synthetic antigen-specific T cell receptors (TCRs) has provocative therapeutic applications for treating cancer. However, expressing these synthetic TCRs in a CD4+ T cell line is a challenge. The CD4+ Jurkat T cell line expresses endogenous TCRs that compete for space, accessory proteins, and proliferative signaling, and there is the potential for mixed dimer formation between the α and β chains of the endogenous receptor and that of the synthetic cancer-specific TCRs. To prevent hybridization between the receptors and to ensure the binding affinity measured with flow cytometry analysis is between the tetramer and the TCR construct, a CRISPR-Cas9 gene editing pipeline was developed. The guide RNAs (gRNAs) within the complex were designed to target the constant region of the α and β chains, as they are conserved between TCR clonotypes. To minimize further interference and confer cytotoxic capabilities, gRNAs were designed to target the CD4 coreceptor, and the CD8 coreceptor was delivered in a mammalian expression vector. Further, Golden Gate cloning methods were validated in integrating the gRNAs into a CRISPR-compatible mammalian expression vector. These constructs were transfected via electroporation into CD4+ Jurkat T cells to create a CD8+ knockout TCR Jurkat cell line for broadly applicable uses in T cell immunotherapies. / Dissertation/Thesis / Masters Thesis Biology 2020 Biology Cellular biology Cancer CRISPR Immunology Immunotherapies T cell T cell receptor
109	Flow cytometric evaluation of STAT phosphorylation in T cell population Bitar, Michael 04 November 2020 (has links) Intracellular protein phosphorylation is a critical step in cellular activation stimulated by the binding of various ligands to cell surface receptors. This process is initiated by activation of specific protein-tyrosine kinases associated with intracellular domains of the respective ligand receptor. JAK-STATs pathway is one of the main pathways in the cell activation process and given their important role in various PIDs, STATs proteins have been extensively studied in immune function in health and disease. Therefore, our work has focused on investigating and evaluating STATs activation and establishing flow cytometric methods to assess their phosphorylation to be a surrogate marker as a fast and sensitive diagnostic tool to current methods such as WB. At the first, we studied STAT1 and STAT3 activation and established a flow cytometric procedure to analyze variations of INF-α- and IL-6-induced STAT1 and STAT3 phosphorylation in T cells from whole blood, respectively (publication ΙΙ). To examine whether our results were specific, the samples were also analyzed by WB in parallel. After that, we validated the normal values of pSTAT1 and pSTAT3 based on 21 healthy adult controls according to an appropriate validation process. We showed that, in contrast to the conventional methods like WB, our assay offers a diagnostic benefit by avoiding labor and time consumption, with the advantage of achieving an earlier diagnosis, which potentially leads to improve treatment decisions; hence, patient’s outcome (publication ΙΙ). Furthermore, we verified FCM-based pSTAT1 and pSTAT3 profiling established here in patients group suffering from CMC and HIES. Our results demonstrated that pSTAT1 and pSTAT3 assay is an effective tool to identify and characterize well-known PIDs such as CMC and HIES, respectively (publication ΙΙ). Next, we introduced a fast and straightforward flow cytometric assay for the assessment of T cell proliferation, based on the staining of phosphorylated STAT5A (publication ΙΙΙ). We showed that pSTAT5A represents an appropriate approach to predict the behavior of T cells upon activation by CD3/CD28 and PHA. FCM-based pSTAT5A profiling is an intracellular flow cytometric method, enabling the early and reliable detection of T cell proliferation without long time incubation (within 24 h instead to 5 days). Importantly, measurement of pSTAT5A represents a new principle to assess T cell proliferation. It reveals important information on T cell biology by using series of kinetics and different kinds of T cell stimulation. For instance: [1] after stimulation via CD3/CD28 and negative pSTAT5A and T cell proliferation, the immune defect could be occurred in the whole signaling cascade (TCR-IL-2 transcription-JAK3-STAT5), [2] After stimulation via external IL-2 and negative pSTAT5A, the immune defect could be localized in the signaling cascade (IL-2R – JAK3 – STAT5), [3] After stimulation via external IL-2 and positive pSTAT5A, the immune defect could be localized in the signaling cascade (TCR - IL-2 transcription) (publication ΙΙΙ). We showed a strong correlation between the STAT5A phosphorylation and the percentage of dividing cells (publication ΙΙΙ). Later on, we used the measurement established here to investigate whether the phosphorylation of STAT5A is an appropriate candidate for predicting CMV specific T cell proliferation. It is well-known that CMV specific T cells expand with CMV reactivation and are probably prerequisite for control and protection. We demonstrated that CMV specific pSTAT5A detection represents a fast and straightforward diagnostic tool to assess CMV specific T cell proliferation without requisite several days’ culture (publication ΙV). Furthermore, we showed a positive correlation between the percentage of pSTAT5A+ T cells vs. (1) CMV-IgG concentrations vs. (2) the percentage of expanded T cells and vs. (3) the percentage of initial CMV specific T cells (publication ΙV). Finally, we evaluated the diagnostic value of pSTAT5 assay and determined the percentage of pSTAT5A+ T cells cut-off value at which pSTAT5 assay has the greatest diagnostic potency. Our data showed that a cut-off value of 9.1 % could be used to assess CMV specific T cell proliferation with a specificity and sensitivity of 100% and 73%, respectively. We verified measurement established here by CMV specific T cells stimulation in three selected patients diagnosed with CARMIL2-mutation and suffering from chronic CMV infection. Our results showed that the complete and the partial deficiency of CMV and CD3/CD28 stimulated pSTAT5A correlated with the complete and the partial deficiency of CMV and CD3/CD28 stimulated T cell proliferation, respectively (publication ΙV). In conclusion, disorders in JAKs-STATs signal pathways in T cells may result in insufficient response to stimulants. Therefore, FCM-based pSTATs profiling is an effective tool for clinical laboratory diagnostics [1] to understand the susceptibility to recurrent opportunistic infections [2] to rapidly identify T cell proliferation [3] to investigate tumor-specific responses of CD8 T effector and memory cells (56) and finally [4] to identify and distinguish well-known PIDs like CARMIL-2 mutations, CMC, AD-HIES or AR-HIES. info:eu-repo/classification/ddc/610 ddc:610
110	The role of sCD127 in IL-7-Mediated T Cell Homeostasis in Vivo Aloufi, Nawaf 23 September 2020 (has links) Interleukin-7 is an essential cytokine that plays a major role in the development and homeostatic maintenance of T-cells. The presence of soluble forms of various cytokine receptors have been proposed to be involved in the endogenous regulation of cytokine activity. Due to the natural ability of soluble CD127 (sCD127) to bind to IL-7, there is an interest in its potential application as an immunotherapeutic agent in diseases, where IL-7 has been found to be relevant, including HIV infection. In this study, I hypothesize that by administering sCD127 to healthy mice, IL-7 activity should be enhanced, thus enhancing T cell proliferation in vivo. The work presented here focuses on three main objectives: 1) evaluating the effect of IL-7 with or without sCD127 on T cell proliferation in healthy mice; 2) validating a mouse model of T cell depletion using anti-CD4 and CD8 antibodies; and 3) determining the effect of sCD127 treatment with or without IL-7 on T cell reconstitution and proliferation in the T cell depletion model. To assess the effect of administering exogenous sCD127, IL-7 or the combination on T cell proliferation, peripheral blood mononuclear cells and spleen were isolated, and stained to characterize T cell number, proliferation, and surface CD127 expression by flow cytometry. For the T cell depletion model, wild type C57BL/6 mice were injected intra-peritoneally with 150 μg single dose of anti-CD4 and anti-CD8 depleting antibodies. Consequently, mice were bled weekly to demonstrate the kinetics of T cell reconstitution following depletion (from d7 to d63). Our results demonstrated that in healthy mice daily treatment with murine IL-7 significantly stimulated T cell proliferation and consequently increased cell number. This observation was further boosted by pre-complexing IL-7 with sCD127. For T cell depletion experiments, the kinetics of T-cell reconstitution was different between the CD4+ and CD8+ T cells. CD4+ T cell reconstitution was almost complete 6 weeks following T cell depletion, while CD8+ T cells were only partially reconstituted at this time point. Treatment with IL-7 or combined therapy had a transient and significant effect on T cell proliferation and reconstitution, and this influence was abrogated after treatment discontinuation. Interestingly, CD8+ T cells exert greater responses to our treatments in that a more pronounced proliferation and significant increase in cell number was observed relative to the effect seen on CD4+ T cells in both healthy and depleted mice. In conclusion, antibody-mediated T cell depletion is a potentially valuable tool to investigate lymphopenia-induced proliferation and potential therapies thereof. This study suggests that combining sCD127 and IL-7 therapies enhances IL-7-mediated T cell proliferation, and provides important information for the potential therapeutic use of sCD127 and its impact on IL-7 function. IL-7 Soluble CD127 CD4+ T cells CD8+ T cells T cell proliferation T cell reconstitution

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