Mechanisms Of Rapid Memory CD8+ T-cell Inactivation
Funder
National Health and Medical Research Council
Funding Amount
$318,517.00
Summary
Type 1 diabetes (T1D) and other autoimmune diseases results from misdirected immune responses that destroy normal body tissues. The ultimate goal of therapeutic strategies is to remove or inactivate the immune cells that attack normal tissues, while leaving other immune cells, for example, those required for protection from infectious diseases and tumours, unaffected. Here we propose to test a new way of turning off inappropriate immune reactions.
Dendritic Cell-mediated Induction Of T Cell Tolerance
Funder
National Health and Medical Research Council
Funding Amount
$654,725.00
Summary
Australia has some of the highest rates of immune-mediated diseases in the world. These diseases include autoimmune, allergic and inflammatory conditions. We will use a mouse model to study how dendritic cells can prevent the onset of these conditions by inactivating the immune cells that cause them. Our findings will aid in understanding why these diseases develop and how they may be prevented and treated.
Autoimmune diseases constitute a significant medical problem in the developed world and are increasing in incidence. Many control mechanisms exist in the body, but in people with genetic susceptibility to autoimmune disease, the mechanisms fail and the body's immune system attacks normal tissues or organs. We have developed a new approach, using the cells which train the immune system, to re-educate the cells that would otherwise attack normal healthy tissues in autoimmune-prone individuals. The ....Autoimmune diseases constitute a significant medical problem in the developed world and are increasing in incidence. Many control mechanisms exist in the body, but in people with genetic susceptibility to autoimmune disease, the mechanisms fail and the body's immune system attacks normal tissues or organs. We have developed a new approach, using the cells which train the immune system, to re-educate the cells that would otherwise attack normal healthy tissues in autoimmune-prone individuals. These cells (dendritic cells) are genetically modified to express the molecular targets of the autoimmune response. This in turn switches off the response to these targets. In this project, we will explore how these cells can be used to turn off the harmful cells present in the immune system.Read moreRead less
The Molecular Identification Of FoxP3 +ve Regulatory T Cells
Funder
National Health and Medical Research Council
Funding Amount
$483,273.00
Summary
The immune system has a series of checks and balances in place to distinguish foreign bodies from normal, or self-antigens. In healthy individuals this prevents the immune system from attacking the cells and tissues of the body, food proteins, and the beneficial bacteria of the gut. However in autoimmune disease the system becomes imbalanced, allowing reactions to benign antigens, causing diseases such as diabetes, asthma and rheumatoid arthritis. One of the key players in the maintenance of a h ....The immune system has a series of checks and balances in place to distinguish foreign bodies from normal, or self-antigens. In healthy individuals this prevents the immune system from attacking the cells and tissues of the body, food proteins, and the beneficial bacteria of the gut. However in autoimmune disease the system becomes imbalanced, allowing reactions to benign antigens, causing diseases such as diabetes, asthma and rheumatoid arthritis. One of the key players in the maintenance of a healthy immune system is a specialized set of T cells known as T Regulatory cells. These cells are rare, at 1-4% of all T cells, yet are potent modulators of other T cells, and can prevent the activation of a T cell if it is reacting to a self-antigen. If they can control the cause of autoimmune disease, and patient Treg cells can be manipulated, it may be possible to use them therapeutically. Recently the switch that is required to generate regulatory cells was identified from patients with a rare autoimmune disease called Immunodysregulation, polyendocrynopathy, enteropathy, X-linked syndrome or IPEX. A mouse disease, Scurfy, with similar symptoms, is caused by the same mutations. The mutated gene encodes a protein, FoxP3, and this protein is able to bind to other genes in T cells and regulate their function. Without this protein, there are no T regulatory cells, resulting in autoimmune disorders. At this time there is very little known about how the FoxP3 gene is able to make a T cell become a regulatory T cell, and nothing is known about the genes that are turned off and on to facilitate this. If we can understand better the role of this protein, FoxP3, in the generation and maintenance of T cells with regulatory function, we may better be able to diagnose and treat autoimmune diseases, and this knowledge will have broad application to many autoimmune disorders.Read moreRead less
Influence Of TCR Signals From Contact With Self-MHC Ligands On Naive T Cell Survival
Funder
National Health and Medical Research Council
Funding Amount
$418,658.00
Summary
A diverse repertoire of naive T cells constitutes a critical part of the adaptive immune system and protects hosts from various infections and cancer. T cells are stably maintained at a constant number in the periphery by mechanisms that are not clearly understood. This proposal will shed light on how the immune system preserves a diverse na�ve T cell pool able to respond against various foreign antigens, while preventing their harmful auto-reactivity to self antigens.
Regulation Of T Cell Effector Function In Peripheral Tissues
Funder
National Health and Medical Research Council
Funding Amount
$698,550.00
Summary
Protection from infections relies on different types of immune cells. While some of these cells are found in the blood, others reside in peripheral tissues such as the skin. We will analyse the function of these peripheral immune cells to understand how they work to fight off infections. We will also investigate how so-called memory cells that permanently reside in peripheral tissues can protect from re-infection with similar bacteria or viruses.
Identifying The Ontogeny And Fate Of T Follicular Helper Cells By Two-photon Photoconversion
Funder
National Health and Medical Research Council
Funding Amount
$623,070.00
Summary
The aim of this proposal is to investigate immune cells called T follicular helper cells using a novel microscopy-based method that we have developed. This method lets us ‘tag’ these cells in a way that enables us to distinguish them from all other cells and follow them as they migrate to different immunological compartments during the response. T follicular helper cells are important for protective immune responses against pathogens and a better understanding of this T cell subset will aid vacc ....The aim of this proposal is to investigate immune cells called T follicular helper cells using a novel microscopy-based method that we have developed. This method lets us ‘tag’ these cells in a way that enables us to distinguish them from all other cells and follow them as they migrate to different immunological compartments during the response. T follicular helper cells are important for protective immune responses against pathogens and a better understanding of this T cell subset will aid vaccine design.Read moreRead less