Regulation of IL-7 receptor (CD127) expression on circulating CD8+T cells in HIV infection and its role in cytotoxicity

Komsic-Vranjkovic, Agatha

January 2009

The progressive breakdown of cell mediated immunity is a feature in the pathology of HIV disease. Although not lost from the circulation, with disease progression cytotoxic T lymphocytes (CTL) are less able to contain numerous pathogens including HIV itself. Interleukin (IL)-7 and its signalling via the IL-7 receptor (CD127) is essential for optimal CTL activity. Our demonstration that fewer CD8+ T cells from HIV+ patients express CD127 as compared to healthy individuals, implicates a role for the regulation of CD127 expression in the immunopathogenesis of HIV. Thus, we hypothesize that altered CD127 expression and/or function on CD8+ T cells contributes to impaired cell mediated immunity. This thesis reports an examination of which host or viral factors may be responsible for the down-regulation of CD127 on CD8+ T cells in HIV infection and the mechanism(s) by which these host and/or viral factors decrease CD127 expression on CD8+ T cells. It also assesses whether HIV down-regulates CD127 expression on CD8+ T cells in vitro, and evaluates if the functional capacity of CD127 is altered in HIV infection. Of all the host and viral factors tested, IL-7, IL-4 and HIV-1tat caused a down-regulation in surface CD127 expression on CD8+ T cells, without affecting CD127 mRNA. IL-7 did not increase internalization of surface CD127, but caused shedding of the receptor. Furthermore, In vitro HIV infection of PBMC caused a down-regulation in surface CD127 expression on CD8+ T cells, without affecting CD127 mRNA, and seems to be caused by a soluble factor produced by the infected PBMCs. Finally, in response to IL-7, STAT5 phosphorylation in CD8+CD127 + cells from HIV+ individuals is significantly decreased compared to healthy controls. Proliferation of CD8+CD127 + cells in response to IL-7 is also significantly impaired. These data demonstrate a dysfunction in the IL-7 receptor system that may be explained by IL-7 specific signal transduction defects. As the IL-7/IL-7R system and its disruption during HIV infection continue to be intensively studied, one will get a better understanding of HIV immunopathogenesis and the potential to lead to the development of novel immune based therapies will come about.

Health Sciences, Immunology.

Development of protein- and RNA-based tools for studying small RNAs using Tombusvirus p19 and native target RNA microarrays

Sagan, Selena M

January 2009

Over the past decade, small RNAs have emerged as important regulators of eukaryotic messenger RNAs (mRNAs). Short-interfering RNAs (siRNAs) and microRNAs (miRNAs) participate in 'RNA silencing' pathways that regulate transcription, chromatin structure, genome integrity, translation, and mRNA stability. Both types of small RNAs can be functionally equivalent, but they are distinguished by their origin. Herein, novel protein- and RNA-based tools for studying RNA silencing and small RNAs are described. Detection, purification, and quantification of small RNAs is important for gaining an understanding of the roles of RNA silencing pathways in eukaryotic organisms. This thesis describes the development of the tombusviral p19 protein, which is a suppressor of RNA silencing, as a tool to study small RNAs. The siRNA-binding properties of the p19 protein in vitro were investigated and an assay for high-throughput siRNA detection and quantification was developed. Furthermore, a small molecule library was screened to identify small molecule inhibitors of the p19-siRNA interaction. These studies identified small molecules that act as potent inhibitors of the p19-siRNA interaction by alkylation of cysteine residues. Mutagenesis revealed novel postulates regarding the role of cysteine residues within the p19 protein. The specificity of p19-small RNA interactions was also investigated using fluorescence-based techniques in order to determine the affinity of p19 for irregularly-structured small RNAs. Differential binding affinities of p19 to canonical and irregularly structured small RNAs has implications for the use of p19 as a tool for detection, purification and quantification of small RNAs in vitro and in diverse eukaryotic organisms. In addition to developing protein-based tools to study small RNAs, we also wanted to investigate the effects of target site accessibility on the design of highly effective siRNAs. Thus, the importance of target site accessibility in the design of effective siRNAs against highly-structured targets was investigated using the Hepatitis C virus (HCV) RNA genome as a model. Since siRNA knockdown is hampered by target site accessibility, and current computational approaches are not yet able to reliably predict accessibility for large target RNAs, an in vitro screening approach for target site accessibility was developed. Native HCV target RNA microarrays were used to predict the potency of small RNAs directed against the HCV replicon RNA genome. This technique could be useful for the identification of novel, highly potent siRNA target sites within the large, highly-structured HCV RNA genome. Our results suggest that the highly-structured nature of the HCV RNA genome may impede the design of highly-effective siRNA-based inhibitors for this important human pathogen. In addition, the methodology described here could be extended to other systems, including the highly-structured genomes of other human pathogens.

Health Sciences, Immunology.

Role of CD3 chains in thymocyte differentiation

Brodeur, Jean-François.

January 2006

No description available.

Health Sciences, Immunology.

SHP-1/PTP-1B Macrophage interactome upon «Leishmania mexicana» infection

Ralph, Benjamin

January 2012

No description available.

Health Sciences - Immunology

Characterization of differentially activated human B cells and effects of their soluble products on regulatory T cell suppressive function: assay development and design

Lawrie, Sarah

January 2012

No description available.

Health Sciences - Immunology

Role of the spleen in erythropoietic and acquired immune responses during murine blood stage malaria

Yap, George So

January 1994

No description available.

Health Sciences, Immunology.

Cellular immunity among HIV exposed, uninfected individuals

Makedonas, George.

January 2005

No description available.

Health Sciences, Immunology.

Engineered «Lactoccus lactis» live vaccines against «Leishmania major»

Hugentobler, Felix

January 2012

No description available.

Health Sciences - Immunology

The influence of killer immunoglobulin-like receptor genotypes on protection from human immunodeficiency virus-1 infection in exposed seronegative individuals

Tallon, Benjamin

January 2012

No description available.

Health Sciences - Immunology

Characterization of the hepatitis C virus NS5b RNA-dependent RNA polymerase: novel inhibitors and antiviral resistance

Powdrill, Megan

January 2012

No description available.

Health Sciences - Immunology