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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Study of CD8'+T lymphocyte responses against human herpesviruses

Vargas Cuero, Ana Laura January 2000 (has links)
No description available.
2

Generation and Function of CD8 T Cell Memory to γ-Herpesviral Infection

Cush, Stephanie S. January 2010 (has links)
No description available.
3

Role of ETS-1 and Histone Methylation Patterns in Rapid Recall Ability of Memory T Cells

Eymard, Eric D. 01 April 2021 (has links)
No description available.
4

Influence of Lck abundance on thymic selection, peripheral T cell activation and the formation of T cell memory

Stockner, Kaija January 2014 (has links)
Selection of the T cell repertoire in the thymus is governed by the need to create a repertoire of peripheral T cells that can respond to any foreign antigen in the context of self-major histocompatibility complex (MHC), while enforcing central tolerance to self-antigens. Perturbations in signalling molecules, that reduce the affinity of thymic selection, can lead to the production of a peripheral repertoire with increased autoimmunity, as has been shown for mutations in the Zap-70 kinase. Upstream of Zap-70 is Lck, the most proximal tyrosine kinase required for T cell receptor (TCR) triggering upon TCR engagement by peptide:MHC. In order to study how Lck influences T cell activation, a transgenic mouse model (LckVA), in which Lck is expressed constitutively from a T cell specific transgene and mice have very low expression of Lck (~5% of WT) in both the thymus and periphery, was used. It has been shown that Lck is critical for successful T cell development, yet the results of this thesis show that even 5% of WT levels of Lck are sufficient for selection of thymic T cells on both polyclonal and F5 TCR transgenic backgrounds. Previous studies utilising mice expressing an inducible Lck transgene, which also had reduced Lck expression in the periphery, showed Lck to be critical in determining the activation threshold of T cells. In contrast, peripheral T cells in LckVA mice had similar activation thresholds to wild type T cells, as measured by in vitro upregulation of early activation markers. Further analysis of LckVA peripheral T cells revealed differential influences of low expression of Lck on downstream signalling pathways upon TCR engagement. For example, ERK signalling was impaired, while calcium flux and proliferation were enhanced in LckVA T cells. Finally, LckVA T cells were altered in their ability to differentiate, showing enhanced production of cytokines and retaining the capacity to form memory cells.
5

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.
6

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.
7

Adaptive NK Cell Memory and Nucleosome Interference: Two Tales of the Ly49 Receptor Family

Wight, Andrew January 2017 (has links)
Ly49 receptors are the canonical natural killer cell class-I major histocompatibility complex receptors expressed in mice. They have a well-defined role in natural killer cell self/non-self discrimination and in the developmental licensing of functional natural killer cells. In this thesis, I report two novel aspects of Ly49 receptor biology. First, I show that their expression may be regulated by specific nucleosome occupancy on AML-1 binding sites within the distal Ly49 promoter. This finding sheds light on a potential regulatory pathway that has thus far been unexplored in studies of the Ly49 receptor family, and highlights the Ly49 family as an ideal model system in which to study the impact of nucleosome occupancy in general. Second, I show that Ly49 receptors have a central and indispensable role in the emerging phenomenon known as adaptive natural killer cell memory. Natural killer cells have recently been observed displaying adaptive, long-lived, antigen specific memory responses comparable to T cell memory responses, but no explanatory mechanism has been discovered to describe how adaptive memory is possible in these ‘innate’ immune cells. Using Ly49-deficient mice, I show that the inhibitory, self-specific Ly49 receptors Ly49C and Ly49I are required for adaptive memory responses to chemical haptens or protein antigens. Moreover, I show that Ly49C/I binding capabilities are required during all stages of the memory response, as is antigen presentation in the context of class I major histocompatibility complex, again analogous to T cell memory responses. I present initial findings implicating these Ly49 receptors as key components of the antigen recognition process itself, and propose a mechanism based in evolutionarily ancient immunology to explain how this specificity could arise. Finally, I demonstrate that Ly49-dependent natural killer cell memory is capable of mediating powerful anti-cancer vaccination effects using an aggressive model of melanoma. Together, these findings in Ly49 family expression regulation and its functional role in adaptive NK cell responses open several new avenues of study in Ly49 receptor biology and natural killer cell immunology.
8

Perpetuation Of T cell Memory : A Role For Anti-Idiotypic T Cells

Lal, Girdhari 08 1900 (has links) (PDF)
No description available.
9

Polycomb PRC2-Ezh1 cell memory system in circadian clock and diet induced cellular stress regulation in mammalian skeletal muscle

Nadeef, Seba S. 11 1900 (has links)
The majority of our physiological and metabolic processes are coordinated by an internal clock, which has evolved as an adaptive response to the daily light-dark cycles. Thus, several physiological and behavioral activities display an oscillatory rhythmic period of 24 hours. This highly conserved molecular mechanism is achieved through a specific program of gene expression, characterized by a complex interaction between clock-core proteins, chromatin remodelers and epigenetic events associated with the oscillatory nature of circadian transcriptional activity in the genome. Clock disruption leads to a wide spectrum of severe health problems including chronic metabolic disorders, muscle waste and cardiopathies. Previous studies revealed that each cell and organ possess an intrinsic clock and that coordination between central versus peripheral clocks is key for health. Furthermore, it has been found that under nutritional challenge such as High Fat Diet (HFD), the circadian transcriptome and metabolome are rapidly remodeled in the mouse model. Surprisingly, metabolome and gene expression analysis on various tissues revealed that skeletal muscle is the most affected under HFD. Mechanisms that regulate circadian cycle and stress induced rapid adaptation and in particular metabolic stress at the chromatin level are largely unknown. In this study, we investigated the role of Polycomb proteins group (PcG) mediate cell memory system by maintaining transcriptional gene silencing, in particular the PRC2-Ezh1. We hypothesized that Ezh1 could play an important role in circadian clock regulation in post-mitotic skeletal muscle, and this pathway has never been explored in this context. We explored the circadian role of PRC2-Ezh1 in the mouse skeletal muscle. Intriguingly, we found that the oscillatory profile of a novel isoform of Ezh1 (Ezh1beta), localized specifically in the cytoplasm and controlling stress induced nuclear PRC2 activity, was completely disrupted under HFD. More interestingly, the circadian pattern of core clock components was impaired in Ezh1 depleted cells. Our data unveils an interesting physiological role of the PcG memory system, from cytoplasm to chromatin, which could indicate a new link between the chromatin remodeler Polycomb proteins and the endogenous clock in adaptation mechanism in skeletal muscle.
10

Técnicas de redução de potência estática em memórias CMOS SRAM e aplicação da associação de MOSFETs tipo TST em nano-CMOS / Static energy reduction techniques for CMOS SRAM memories and TST MOSFET association application for nano-CMOS

Conrad Junior, Eduardo January 2009 (has links)
Em nossos dias a crescente busca por portabilidade e desempenho resulta em esforços focados na maximização da duração de bateria dos equipamentos em fabricação, ou seja, busca-se a conflitante solução de circuitos com baixo consumo e ao mesmo tempo com alto desempenho. Neste contexto usualmente na composição de equipamentos portáteis empregam-se SOC´s (Systems On Chip) o que barateia o custo de produção e integração destes circuitos. SOC´s são sistemas completos que executam uma determinada função integrados em uma pastilha de silício única, normalmente possuem memórias SRAM como componente do sistema, que são utilizadas como memórias de alta performance e baixa latência e/ou também como caches. O grande desafio de projeto em memórias SRAMS é a relação de desempenho versus potência consumida a ser otimizada. Basicamente por sua construção estes circuitos apresentam alto consumo de potência, dinâmica e estática, relacionada a primeira diretamente ao aumento de freqüência de operação. Um dos focos desta dissertação é explorar soluções para a redução de consumo de energia tanto dinâmica como estática, sendo a redução de consumo estático de células de memória em standby buscando desempenho, estabilidade e baixo consumo de energia. No desenvolvimento de técnicas para projeto de circuitos analógicos em tecnologias nanométricas, os TST´s (T-Shaped Transistors – Transistor tipo T) surgem como dispositivos com características potenciais para projeto analógico de baixa potência. TSTs / TATs (Trapezoidal Associations of Transistors – Associação Trapezoidal de transistores) são estruturas self-cascode que podem tornar-se uma boa escolha por apresentar redução do leakage, redução na área utilizada e com incremento na regularidade do layout e no casamento entre transistores, propriedade importantíssima para circuitos analógicos. Sendo este o segundo foco deste texto através do estudo e análise das medidas elétricas dos TSTs executadas para comprovação das características destes dispositivos. Também apresenta-se uma análise das possibilidades de utilização dos TSTs em projeto analógico para tecnologias nanométricas. / Nowadays the increasing needs for portability and performance has resulted in efforts to increase battery life, i. e., the conflicting demands for low power consumption and high performance circuits. In this context using SOC´s (System On Chip) in the development for portable equipments composition, an integration of an entire system for a given function in a single silicon die will provide less production costs and less integration costs. SOC´s normally include a SRAM memory as its building block and are used to achieve memories with low latency and short access time or (and) as caches. A performance versus power consumption analysis of SRAM memory building blocks shows a great challenge to be solved. The electrical design aspects of these blocks reveal high power consumption, dynamic and static, and the former is directly proportional to the operating frequency. The design space exploration for dynamic and leakage consumption reduction in these circuits is one of the focus of this work. The main contribution of this topic is the leakage reduction techniques based in performance, stability and low energy consumption for the memory cell stand-by mode. Among the electrical techniques developed for analog circuits at the 20-100 nanometer scale, the TST (T-Shaped Transistors) rises with potential characteristics for analog low power design. TST /TAT (Trapezoidal Associations of Transistors) are selfcascode structures and can be turning into a good alternative for leakage and area reduction. Another point is the increment in mismatch and layout regularity, all these characteristics being very important in analog designs. The TST electrical measurements study and analysis are developed to show the device properties. An analysis of the TST desired properties and extrapolation for nanometer technologies analog design are also presented.

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