The Function Of Transcription Factor SCL In T Cell Development.
Funder
National Health and Medical Research Council
Funding Amount
$504,750.00
Summary
SCL is a gene which is abnormally expressed in a large percentage of human T cell leukaemias. Mouse models that increase SCL levels have demonstrated that T cell maturation is abnormally affected by SCL. Thus, providing a clue as to how T cell leukemias arise. By utilising recombinant DNA technology we are now able to control SCL levels in T cell maturation. We can either increase the level of SCL using pharmacological reagents or we can genetically remove SCL from maturing T cells. This double- ....SCL is a gene which is abnormally expressed in a large percentage of human T cell leukaemias. Mouse models that increase SCL levels have demonstrated that T cell maturation is abnormally affected by SCL. Thus, providing a clue as to how T cell leukemias arise. By utilising recombinant DNA technology we are now able to control SCL levels in T cell maturation. We can either increase the level of SCL using pharmacological reagents or we can genetically remove SCL from maturing T cells. This double-edged approach will allow us to monitor the effects of SCL on maturing T cells with a precision that has never previously been achieved. Results from this approach will provide new insights into how T cell leukaemia develops and provide the foundation for new rational based treatments.Read moreRead less
Cancer is one of the leading causes of death in the industrialized world. While therapies to treat cancer have continued to improve one area that, in theory at least, shows great promise in the treatment of tumours is manipulating the immune system to effectively recognize and destroy cancerous lesions. Experiments in human and animal systems have clearly shown that the immune system has the potential to respond to tumour cells and trials of tumour vaccines are underway. It has recently become a ....Cancer is one of the leading causes of death in the industrialized world. While therapies to treat cancer have continued to improve one area that, in theory at least, shows great promise in the treatment of tumours is manipulating the immune system to effectively recognize and destroy cancerous lesions. Experiments in human and animal systems have clearly shown that the immune system has the potential to respond to tumour cells and trials of tumour vaccines are underway. It has recently become apparent that the immune responses to tumours may be inhibited by classes of regulatory immune cells. Eliminating these cells results in a more vigorous and effective anti-tumour response. This project will seek to discover the mechanisms of action of theses regulatory immune cells in order to devise more effective anti-cancer vaccines and therapies.Read moreRead less
Control Of The Antigen-specific Cytotoxic T Cell Memory Response
Funder
National Health and Medical Research Council
Funding Amount
$95,044.00
Summary
Individuals who survive infections by a given pathogenic micro-organism are usually protected from subsequent infections by these same agents. This is the basis of adaptive immunity, which defines the body's ability to maintain a memory of prior infection or vaccination and in so doing, mount a far more effective response to subsequent infection by these agents. This proposal deals with the mechanisms by which this memory is maintained. It specifically focuses on cytotoxic T lymphocytes (CTL) wh ....Individuals who survive infections by a given pathogenic micro-organism are usually protected from subsequent infections by these same agents. This is the basis of adaptive immunity, which defines the body's ability to maintain a memory of prior infection or vaccination and in so doing, mount a far more effective response to subsequent infection by these agents. This proposal deals with the mechanisms by which this memory is maintained. It specifically focuses on cytotoxic T lymphocytes (CTL) which are leucocytes or white blood cells that kill virus infected cells. Using new technology which permits visualisation of CTL directed against specific viruses we are going to define what determines the survival and replacement of these memory cells over time. We will also identify the agents that alter the memory CTL's ability to deal with infections within localised sites in the body. In so doing, this work will provide valuable insight into approaches that can be used to better vaccinate individuals against infections by pathogenic viruses.Read moreRead less
The Genetics Controlling The Course Of Herpesvirus Infection In Humans
Funder
National Health and Medical Research Council
Funding Amount
$69,684.00
Summary
Epstein-Barr Virus and Human Cytomegalovirus are common viruses present in more than 50% of the adult population. They have a major impact on the human immune system, stimulating large numbers of T cells that are essential to control the persistent viral infection. Generally, these viruses cause few problems; however, an unfortunate minority suffer major life threatening clinical problems. There has also been some evidence for a role of EBV infection in the pathogenesis of Multiple Sclerosis.
T cells play a central role in the immune response. The primary event in T cell activation is the triggering of a specific T cell receptor (TCR). Our studies will examine whether the protein TCPTP antagonises TCR-instigated T cell responses. Our studies may provide important new insights into alternative approaches for manipulating T cell-mediated immune responses in diseased states.
Investigating The Role Of TCR Avidity In Influenza Virus-specific CD8 T Cell Responses
Funder
National Health and Medical Research Council
Funding Amount
$83,142.00
Summary
One of the constituents of the immune system is the cytotoxic, or killer, T cells and these are important in the overall protection from viral infection. Activation of these T cells is mediated by signalling through the T cell receptor (TCR). This study will definitively determine how the strength with which the TCR binds to the activating ligand, can influence the quality of virus-specific T cell immune responses after infection. This has implications for vaccine design.
T cells are a central component of the immune system and without T cells the body is very vulnerable to infections. One subgroup of T cells is the killer T cells that are important for identifying and killing cells infected by viruses and bacteria. The immune system works to maintain T cell numbers at a fairly constant level and part of this process includes sending signals to the killer T cells from other cells via cell surface protein interactions and soluble mediators, such as cytokines. We h ....T cells are a central component of the immune system and without T cells the body is very vulnerable to infections. One subgroup of T cells is the killer T cells that are important for identifying and killing cells infected by viruses and bacteria. The immune system works to maintain T cell numbers at a fairly constant level and part of this process includes sending signals to the killer T cells from other cells via cell surface protein interactions and soluble mediators, such as cytokines. We have been studying killer T cells, which are missing a protein SOCS1. SOCS1 is important for switching off the signals generated by a group of cytokines. As a consequence of being unable to correctly regulate cytokine signals these killer T cells multiply inappropriately and contribute to disease development. Our current work is aimed at achieving a better understanding of the particular interactions between killer T cells and other immune system cells and the soluble factors that deliver important signals for maintaining killer T cells in the immune system. The ability to better understand the factors controlling the maintenance of killer T cells will enable us to more intelligently target the immune system ,which is important for improving vaccine strategies and cancer immunotherapy as well as for controlling T cells that are activated inappropriately, such as in autoimmune disease.Read moreRead less