Role Of The CD8-Heparan Sulfate Interaction In CD8+ T Cell Development And Function
Funder
National Health and Medical Research Council
Funding Amount
$649,135.00
Summary
The immune system can recognise a large array of foreign pathogens without reacting to self-components. For this to occur T cells, the main mediators of immunity, must be made to tolerate self-molecules as they develop in the thymus. We have identified a novel interaction between a molecule called CD8 on T cells and a complex carbohydrate called heparan-sulfate, which helps auto-reactive T cells to be eliminates in the thymus. The aim of this project is to further investigate this phenomenon.
Germinal Centres, Rogue B Cells And The Genesis Of Immunological Diseases.
Funder
National Health and Medical Research Council
Funding Amount
$753,300.00
Summary
This study will determine how the immune system is normally prevented from producing autoantibodies that target the body's own cells and how this fails in autoimmune diseases such as lupus. Targeted studies of a newly discovered "rogue" white blood cell will also provide new clues on how autoimmune diseases arise. In addition, modeling of human immunological disease in mice via CRISPR/Cas9 mutagenesis will provide valuable new insights into their causes and potential treatments.
Positive And Negative Selection In The Germinal Centre Reaction
Funder
National Health and Medical Research Council
Funding Amount
$1,289,965.00
Summary
We will investigate the processes that control the production of antibodies by the immune system. In particular, we will determine how the immune system is normally prevented from producing autoantibodies that target the body's own cells and how this fails in the case of autoimmune diseases such as lupus. Targeted studies of a new type of "rogue" white blood cell we have identified will also provide important clues on how autoantibody-producing cells escape and cause autoimmune disease.
The Cellular And Molecular Basis To The Paradox Of Positive Versus Negative T Cell Selection
Funder
National Health and Medical Research Council
Funding Amount
$278,090.00
Summary
The protection against disease requires the generation of white blood cells called T lymphocytes that are produced in the thymus. Each T cell has a specific surface receptor, generated by random gene switching, that can react against foreign pathogens. Since there is a very high conservation of molecules used in all organisms, some of these receptors could by chance also react against normal cells in the host. Eliminating all such self-reactive cells would mean, however, the repertoire remaining ....The protection against disease requires the generation of white blood cells called T lymphocytes that are produced in the thymus. Each T cell has a specific surface receptor, generated by random gene switching, that can react against foreign pathogens. Since there is a very high conservation of molecules used in all organisms, some of these receptors could by chance also react against normal cells in the host. Eliminating all such self-reactive cells would mean, however, the repertoire remaining for eliminating infection would be too low and immunodeficiency develops. This project investigates the mechanisms controlling the balance between defence infection and the need to prevent immune-based self destruction termed autoimmunity.Read moreRead less
The Generation, Fate And Functional Potential Of Recent Thymic Emigrants
Funder
National Health and Medical Research Council
Funding Amount
$318,856.00
Summary
A particular kind of white blood cell, called a T lymphocyte, is responsible for controlling our immune responses to foreign invaders. These cells develop in the thymus, where they learn to distinguish between foreign invaders and self tissue, before emigrating to other organs. The regulation of this process is important to maintain a pool of T lymphocytes in the body. It is important that T lymphocytes do not respond against self tissue, as this can lead to a Oself destructO disease called auto ....A particular kind of white blood cell, called a T lymphocyte, is responsible for controlling our immune responses to foreign invaders. These cells develop in the thymus, where they learn to distinguish between foreign invaders and self tissue, before emigrating to other organs. The regulation of this process is important to maintain a pool of T lymphocytes in the body. It is important that T lymphocytes do not respond against self tissue, as this can lead to a Oself destructO disease called autoimmunity. Since these developing T lymphocytes will not see all kinds of self tissue while in the thymus, we propose that their education to prevent self-tissue reactivity may continue for some time after they leave the thymus.Read moreRead less
Identification Of Antigen Selection In The Human IgE Response By Analysis Of Somatic Point Mutations
Funder
National Health and Medical Research Council
Funding Amount
$256,973.00
Summary
Allergic disease affects over 25% of the Australian community. It is responsible for significant sickness and death, particularly amongst children, and its incidence is on the increase. The reasons for this, and the underlying causes of allergic disease, remain unclear. Allergic disease results from the actions of molecules called IgE antibodies, which are also associated with parasitic infection. Even in these conditions, where IgE concentrations are raised in the blood, the concentrations are ....Allergic disease affects over 25% of the Australian community. It is responsible for significant sickness and death, particularly amongst children, and its incidence is on the increase. The reasons for this, and the underlying causes of allergic disease, remain unclear. Allergic disease results from the actions of molecules called IgE antibodies, which are also associated with parasitic infection. Even in these conditions, where IgE concentrations are raised in the blood, the concentrations are too low to allow their direct study. We have recently applied molecular biological techniques to study the genes that encode IgE antibodies. Our work suggests that the IgE response can sometimes develop in a different way to that of other antibodies (eg IgG). On the other hand, laboratory (in vitro) studies over many years support the possibility that IgE and IgG develop in parallel. In this study, we wish to identify circumstances in which IgG-like IgE antibodies develop. We therefore wish to study patients with different kinds of allergic disease, and patients with other conditions that are associated with IgE production. We therefore wish to study patients who have infections with parasitic worms. We deduce the processes that give rise to IgE antibodies by analysing patterns of mutations that accumulate in antibody genes during an immune response. Over recent years, we have developed new approaches to the analysis of such mutations, and this project also seeks to further develop our mutation analysis. This more powerful analysis will be applied to the study of mutations in the IgE genes seen in different patient groups, and should allow us to quantify the proportion of IgE antibodies that develop in each way. A better understanding of the relative contributions of the two pathways to IgE, in different conditions, will transform our understanding of the IgE response, and open up new avenues for the investigation of the causes and treatment of allergic disease.Read moreRead less