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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

Studies of rat cell surface activation antigens : molecular characterisation of the alpha and beta chains of the interleukin-2 receptor

Page, Theresa Helen January 1990 (has links)
No description available.
2

Mechanisms of transplantation tolerance

Honey, Karen J. January 1999 (has links)
No description available.
3

An investigation of CD28/B7 family binding interactions and costimulation, using immunoglobulin fusion proteins

Rankin, Alasdair Menzies January 1997 (has links)
No description available.
4

Regulation of Alloreactive CD8 T Cell Responses by Costimulation and Inflammation

Jangalwe, Sonal 30 June 2017 (has links)
CD8 T lymphocytes are a crucial component of the adaptive immune system and mediate control of infections and malignancy, but also autoimmunity and allograft rejection. Given their central role in the immune system, CD8 T cell responses are tightly regulated by costimulatory signals and cytokines. Strategies targeting signals that are critical for T cell activation have been employed in a transplantation setting to impede alloreactive T cell responses and prevent graft rejection. The goal of my thesis is to understand how costimulatory signals and inflammation regulate alloreactive CD8 T cell responses and how to target these pathways to develop more effective tools to prevent graft rejection. Costimulation blockade is an effective approach to prolong allograft survival in murine and non-human primate models of transplantation and is an attractive alternative to immunosuppressants. I describe a novel murine anti-CD40 monoclonal antibody that prolongs skin allograft survival across major histocompatibility barriers and attenuates alloreactive CD8 T cell responses. I find that the pro-apoptotic proteins Fas and Bim function concurrently to regulate peripheral tolerance induction to allografts. Activation of the innate immune system by endogenous moIecules released during surgery or infections in transplant recipients can modulate T cell responses. However, the direct impact of inflammation on alloreactive CD8 T cell responses is not clear. Using a T cell receptor (TCR) transgenic mouse modeI, I demonstrate that inflammatory stimuli bacterial lipopolysaccharide (LPS) and the viral dsRNA mimetic poly(I:C) differentially regulate donor-reactive CD8 T cell responses by generating distinct cytokine milieus. Finally I demonstrate the role of pro-inflammatory cytokines stem cell factor (SCF), granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-3 (IL-3) in improving human B cell development in humanized NOD-scid IL2Rγnull (NSG) mice.
5

Investigation into the regulation of CD46 function in T cells

Hay, Joanne January 2017 (has links)
CD46 is a ubiquitously expressed transmembrane protein in humans with a role in immune homeostasis. Originally identified as a complement regulator, CD46 has since been regarded a receptor for several pathogens and most recently, described as a T cell costimulatory molecule. Its coligation with CD3 and consequent cleavage from the T cell surface serves as a costimulatory stimulus for T cell activation. In addition, in the presence of IL-2, CD46 induces Tr1 cell differentiation which is characterised by low IFN-γ and high IL-10 secretion. CD3/CD46-induced Tr1 differentiation is defective in patients with MS, rheumatoid arthritis and asthma, highlighting the need to investigate the mechanisms involved in the regulation of the CD46 pathway. CD46 is a highly glycosylated protein with three N-glycosylation sites in the short consensus repeats and multiple O-glycosylation sites in the STP region. Previous data from the lab have shown that CD3 activation causes a change in CD46 glycosylation. Herein, I convey that this change is more pronounced in memory than naive CD4+ T cells and is mainly due to changes in CD46 O-glycosylation. Furthermore, these changes are required for the T cell responses triggered by CD46 costimulation including T cell activation and Tr1 differentiation. Interestingly, CD46 is recruited to the immunological synapse formed between a T cell and an antigen presenting cell and I illustrate that the STP region is needed for this also. These data suggest that the glycosylation status of CD46 regulates its function. In MS, vitamin D deficiency is considered to be a significant risk factor and many patients take vitamin D supplement to help manage their condition. Herein, I report that treatment of healthy and MS CD4+ T cells with vitamin D does not prevent T cell activation but it decreases adhesion molecule expression. Moreover, vitamin D supplementation in MS enhances CD46 cleavage. Therefore, vitamin D also plays a role in the regulation of the CD46 pathway and it would be interesting to investigate whether vitamin D affects CD46 glycosylation. During my MSc, I showed that a recombinant protein derived from adenovirus serotype 35 (which naturally binds CD46) known as Ad35K++ controls the CD46 pathway in CD4+ T cells. Lymphoma cells treated with Ad35K++ in combination with monoclonal antibody therapy rituximab have demonstrated increased sensitivity to rituximab and prove that virus-derived recombinant proteins that target CD46 have therapeutic potential. Considering the key role of CD46 as a T cell costimulatory molecule, I have investigated the effects of Ad35K++ on the CD46 pathway following its use in vivo and confirm CD46 is still cleaved from the cell surface and the cells still become activated. Overall these results provide insight into the mechanisms involved in the regulation of the CD46 pathway and highlight how it can be manipulated for therapeutic use.
6

Study of early signaling events in T cell activation enabled through a modular and multi-time point microfluidic device

Rivet, Catherine Aurelie 19 November 2008 (has links)
Binding of the antigen receptor on T cells initiates a rapid series of signaling events leading to an immune response. To fully understand T cell mediated immunity, underlying regulatory properties of the receptor network must be understood. Monitoring dynamic protein signaling events allows for network analysis. Unfortunately, dynamic data acquisition is often extremely time-consuming and expensive with conventional methods; the number of proteins monitored at the same time on the same sample is limited. Furthermore, with conventional, multi-well plate assays it is difficult to achieve adequate resolution at sub-minute timescales. Microfluidics is a capable alternative, providing uniformity in sample handling to reduce error between experiments and precision in timing, an important factor in monitoring phosphorylation events that occur within minutes of stimulation. We used a two-module microfluidic platform for simultaneous multi-time point stimulation and lysis of T cells to investigate early signaling events with a resolution down to 20 seconds using only small amounts of cells and reagents. The device did not elicit adverse cellular stress in Jurkat cells. The activation of 6 important proteins in the signaling cascade upon stimulation with a soluble form of α-CD3 in the device was quantified and compared under a variety of conditions. First, in comparison to manual pipetting, the microdevice exhibits significantly less error between experiments. Secondly, a comparison between Jurkat cells and primary T cells shows similar dynamic trends across the 6 proteins. Finally, we have used the device to compare properties of long-term vs, short-term cultured primary T cells. As expected, older cells present a much weakened response to antigenic cues, as measured with TCR response markers. This modular microdevice provides a flexible format for investigating cell signaling properties through the use of soluble cue stimuli.
7

The Regulatory Role Of Matrix Metalloproteinases In T Cell Activation

Benson, Heather Lynette 08 December 2009 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Introduction: Matrix metalloproteinases (MMPs) are known for their role in extracellular matrix remodeling, but their role in regulating intracellular immune cell function is unknown. We reported that MMP inhibition down regulated T cell proliferation in response to alloantigens and autoantigens; but the direct role of MMP involvement in T cell activation has not been reported. Methods: MMP deficient or MMP sufficient wild-type CD4+ or CD8+ T cells from C57BL/6 mice were treated with SB-3CT, a specific inhibitor of MMP2 and MMP9, stimulated with anti-CD3 Ab, alone, or with IL-2 or CD28. Cellular activation and cytokine profiles were examined. A mouse model of antigen specific T cell mediated lung injury was used to examine MMP inhibition in antigen-specific T cell mediated lung injury. Results: SB-3CT (1-25μM) induced dose-dependent reductions in anti-CD3 Ab-induced proliferation (p<0.0001). Compared to wild-type, MMP9-/- CD4+ and CD8+ T cells proliferated 80-85% less (p<0.001) in response to anti-CD3 Ab. Compared to untreated or wild-type cells, anti-CD3 Ab-induced calcium flux was enhanced in SB-3CT-treated or MMP9-/- CD4+ and CD8+ T cells. Cytokine transcripts for IL-2, TNF-α and IFN-γ were reduced in both CD4+ and CD8+ MMP9-/- T cells, as well as in SB3CT treated CD4+ T cells. MMP inhibition dampened antigen-specific T cell mediated lung injury. Conclusions: Although known to be functional extracellularly, the current data suggest that MMPs function inside the cell to regulate intracellular signaling events involved in T cell activation. T cell targeted MMP inhibition may provide a novel approach of immune regulation in the treatment of T cell-mediated diseases. - David S. Wilkes, M.D., Chair.
8

The Role of Glycolysis in shaping the Autoimmune Potential of Myelin-Reactive T Cells in the Course of Experimental Autoimmune Encephalomyelitis

Chiappetta, Giuseppe 07 November 2018 (has links)
No description available.
9

Investigating the Integration of Alternative Splicing and Transcriptional Regulation in Mammalian Gene Expression

Ip, Yuen Yan 31 August 2011 (has links)
Alternative splicing functions to generate proteomic diversity and to regulate gene expression in higher eukaryotes. Genome-wide analyses suggest that alternative splicing and transcription typically regulate different gene sets to achieve cell- and tissue-type specificity. However, within individual cell-types, most alternative splicing events occur co-transcriptionally and are impacted by the transcriptional machinery. Despite many focused studies on co-transcriptional regulation of alternative splicing, its mechanisms and functions in regulation of gene expression are still poorly understood. To investigate relationships between transcription and alternative splicing, I performed microarray profiling of alternative splicing and transcript levels during activation of a T cell line. This experiment revealed that different sets of genes and associated functional categories are regulated by alternative splicing and transcription during T cell activation. I next employed inhibitors of RNA polymerase II (Pol II) elongation and microarray profiling to identify genes with coupled changes in splicing and transcript levels when transcription is impeded in activated T cell. Genes that were affected at both levels were significantly enriched in RNA binding and processing functions, and generally displayed increased alternative exon inclusion and decreased transcript levels when transcription elongation was disrupted. Similar effects were observed when transcription was driven by mutant polymerases with reduced elongation activity, and when cells were subjected to stress treatments. Many of the elongation inhibition-sensitive exons from the affected genes introduce premature termination codons into the mRNA, resulting in spliced mRNAs that are substrates of the nonsense-mediated decay pathway and further reduction in mRNA levels. ChIP-Seq experiment demonstrated that Pol II occupancy specifically increased in introns flanking the affected exons. These results provide evidence that a physiological function of transcription elongation-coupled alternative splicing regulation is to regulate the levels of RNA processing factors under conditions that reduce elongation activity, including cell stress. In summary, my thesis research has provided new insights into the integration of transcription and splicing control. While these two regulatory levels can control different gene sets during the activation of T cells, within a given cell type, they are closely coupled to control specific alternative splicing events that appear to coordinate mRNA and RNA processing factors levels.
10

Investigating the Integration of Alternative Splicing and Transcriptional Regulation in Mammalian Gene Expression

Ip, Yuen Yan 31 August 2011 (has links)
Alternative splicing functions to generate proteomic diversity and to regulate gene expression in higher eukaryotes. Genome-wide analyses suggest that alternative splicing and transcription typically regulate different gene sets to achieve cell- and tissue-type specificity. However, within individual cell-types, most alternative splicing events occur co-transcriptionally and are impacted by the transcriptional machinery. Despite many focused studies on co-transcriptional regulation of alternative splicing, its mechanisms and functions in regulation of gene expression are still poorly understood. To investigate relationships between transcription and alternative splicing, I performed microarray profiling of alternative splicing and transcript levels during activation of a T cell line. This experiment revealed that different sets of genes and associated functional categories are regulated by alternative splicing and transcription during T cell activation. I next employed inhibitors of RNA polymerase II (Pol II) elongation and microarray profiling to identify genes with coupled changes in splicing and transcript levels when transcription is impeded in activated T cell. Genes that were affected at both levels were significantly enriched in RNA binding and processing functions, and generally displayed increased alternative exon inclusion and decreased transcript levels when transcription elongation was disrupted. Similar effects were observed when transcription was driven by mutant polymerases with reduced elongation activity, and when cells were subjected to stress treatments. Many of the elongation inhibition-sensitive exons from the affected genes introduce premature termination codons into the mRNA, resulting in spliced mRNAs that are substrates of the nonsense-mediated decay pathway and further reduction in mRNA levels. ChIP-Seq experiment demonstrated that Pol II occupancy specifically increased in introns flanking the affected exons. These results provide evidence that a physiological function of transcription elongation-coupled alternative splicing regulation is to regulate the levels of RNA processing factors under conditions that reduce elongation activity, including cell stress. In summary, my thesis research has provided new insights into the integration of transcription and splicing control. While these two regulatory levels can control different gene sets during the activation of T cells, within a given cell type, they are closely coupled to control specific alternative splicing events that appear to coordinate mRNA and RNA processing factors levels.

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