A Novel Mechanism For The Regulation Of T Cell Shape And Function.
Funder
National Health and Medical Research Council
Funding Amount
$384,398.00
Summary
T cells are a key component of the immune system, and an understanding of their regulation has already lead to important therapeutic interventions. It is now apparent that the shape of the T cell impacts upon its ability to be activated, to migrate through the body, and to kill target cells. We have identified a novel means by which T cell shape is controlled, involving a group of proteins which orchestrate molecular traffic throughout the cell. This project application is to elucidate the mecha ....T cells are a key component of the immune system, and an understanding of their regulation has already lead to important therapeutic interventions. It is now apparent that the shape of the T cell impacts upon its ability to be activated, to migrate through the body, and to kill target cells. We have identified a novel means by which T cell shape is controlled, involving a group of proteins which orchestrate molecular traffic throughout the cell. This project application is to elucidate the mechanisms by which the group of proteins regulates T cell shape and function. We will test whether the proteins act together to integrate signals throughout the entire T cell, and will test whether the proteins influence T cell function in the test tube and in the mouse.Read moreRead less
Investigations Into The Biology And Functionality Of The Human T Cell Receptor
Funder
National Health and Medical Research Council
Funding Amount
$424,262.00
Summary
T lymphocytes play a pivotal role in the immune system by recognising virus-infected tissue and tumour cells through the use of specific cell surface receptors called T cell receptors (TCR). This project will study why partcular TCRs are used by the immune system, and will also examine the specificity of T cell recognition by determine the range of molecules an individual T cell can recognise. The work will aid in the development of new intelligent vaccines for cancer and infectious disease.
Chemokine Gradients For Directed Migration Of Captured Cells The And Guidance Of Tissue Engineering
Funder
National Health and Medical Research Council
Funding Amount
$711,643.00
Summary
Many diseases feature migration of cells along tissue gradients of molecules. We propose to create and characterise an artificial system in which we will design flat surfaces coated with varying densities of different molecules. We will study attachment and movement of cells along fixed gradients established by these surface coatings. These cells include lymphocytes that respond to infections and vaccines, cancer cells that invade and spread, and endothelial cells that form blood vessels.
Chromatin Remodelling And Transcriptional Regulation Of CD8 T Cell Effector Gene Expression
Funder
National Health and Medical Research Council
Funding Amount
$531,696.00
Summary
A major role for cytotoxic, or killer, T cells is the recognition and removal of virus infected or tumor cells from a host. Upon recognition of a target host cell, killer T cells deliver a package of proteins, termed granzymes, that mediate the removal of these virus infected and tumor cells. Naive killer T cells need to be activated to start producing these effector molecules. This proposal plans to examine the factors that regulate both induction and maintanence of cell specific expression of ....A major role for cytotoxic, or killer, T cells is the recognition and removal of virus infected or tumor cells from a host. Upon recognition of a target host cell, killer T cells deliver a package of proteins, termed granzymes, that mediate the removal of these virus infected and tumor cells. Naive killer T cells need to be activated to start producing these effector molecules. This proposal plans to examine the factors that regulate both induction and maintanence of cell specific expression of these effector molecules. We plan to identify the molecular events that occur within a cells genome to turn on granzyme gene expression and how these factors influence subsequent killer T cell function. The conclusions from these studies will enable us to determine why some killer T cell responses are not effective and what can be done to improve killer T cell function. This has implications for the development of novel vaccine strategies designed to induce immunity against both viral and tumour challenges.Read moreRead less
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.
Vaccines aim to protect against future infections by inducing memory in the immune system so that the host can react quickly to the next challenge. Defence against viral infections and some cancers depends in part on activating CD8+ T cells, a class of white blood cell that can recognise and kill infected or malignant cells. The ideal vaccines against these challenges would therefore generate high numbers of long-lived CD8+ T cells that are programmed to make the right response if the infection ....Vaccines aim to protect against future infections by inducing memory in the immune system so that the host can react quickly to the next challenge. Defence against viral infections and some cancers depends in part on activating CD8+ T cells, a class of white blood cell that can recognise and kill infected or malignant cells. The ideal vaccines against these challenges would therefore generate high numbers of long-lived CD8+ T cells that are programmed to make the right response if the infection or tumour re-emerges. Little is known about the programming of memory CD8+ T cells. We have recently found that some of these cells have the potential to be reprogrammed to display different functions by exposure to new stimuli. This opens up the possibility that ineffective responses could be improved by using vaccination to control the production of these flexible or multipotential memory cells or to reprogram them once they are formed. Alternatively, effective responses might be subverted by pathogens to the detriment of the host. The goal of this project is to learn how the first exposure to an immune challenge influences the development of these multipotential memory CD8+ cells. Understanding the signals and processes that generate multipotential memory cells will be the first step towards developing ways to manipulate them to improve immune defence.Read moreRead less
The Genetics Governing The Specificity Of T Cell Receptors For Peptide-MHC
Funder
National Health and Medical Research Council
Funding Amount
$303,828.00
Summary
T lymphocytes play a pivotal role in the immune system by recognising virus-infected tissue through the use of highly specific cell surface receptors. These T cell receptors (TCR) recognise viral peptides (p) presented by MHC molecules on the surface of virus-infected cells. For a TCR to be successfully triggered, it must lock onto an exact 3-dimentional pMHC match. In this way, any given TCR must simultaneously recognise both the viral peptide and the MHC presenting it. Such recognition must be ....T lymphocytes play a pivotal role in the immune system by recognising virus-infected tissue through the use of highly specific cell surface receptors. These T cell receptors (TCR) recognise viral peptides (p) presented by MHC molecules on the surface of virus-infected cells. For a TCR to be successfully triggered, it must lock onto an exact 3-dimentional pMHC match. In this way, any given TCR must simultaneously recognise both the viral peptide and the MHC presenting it. Such recognition must be sensitive and precise since a false positive could result in destruction of healthy tissue. There are a huge variety of TCRs and pMHCs, but there are only a few examples where the precise molecular interactions within the TCR-pMHC complex are known. Surprisingly, these studies have shown very limited consistency in the way the TCRs bind the pMHCs and therefore, the structural rules that underlie why TCRs consistently bind MHC remains a mystery of critical importance to this fundamental feature of the immune system. In this proposal, we will attempt to elucidate the rules of TCR-pMHC engagement. Another question to be addressed in this proposal is: During a viral infection, why are certain TCRs chosen above others that also have the capacity to recognise the same viral peptide? By investigating exactly which feature-s of these receptors predisposes their supremacy, we may be better able to predict the outcome of a pathogen attack and to even one day build our own super receptors. Finally, this proposal will also investigate how natural mutations in TCR genes across the human population affect our individual responses to viruses. Overall, advances in each of these core areas of medical research will aid in the development of new intelligent vaccines and individualised drugs for the treatment of cancer and infectious disease.Read moreRead less