Crystallographic Studies Of Non-canonical Peptides Binding To MHC Class I Molecules.
Funder
National Health and Medical Research Council
Funding Amount
$489,750.00
Summary
Virus infected cells and cancer cells are recognised and eliminated from our body by specialised cells called T-cell lymphocytes. This recognition process is the key step in the immune response and some fundamental questions in immunology are centred on the nature of this process. At the molecular level, the recognition is mediated by the specific interaction between proteins on the surface of the cells. On the T-cell lymphocyte, the T-cell receptor (TCR) binds specifically to a protein called t ....Virus infected cells and cancer cells are recognised and eliminated from our body by specialised cells called T-cell lymphocytes. This recognition process is the key step in the immune response and some fundamental questions in immunology are centred on the nature of this process. At the molecular level, the recognition is mediated by the specific interaction between proteins on the surface of the cells. On the T-cell lymphocyte, the T-cell receptor (TCR) binds specifically to a protein called the MHC on the surface of the target cell. The target cell can be a cancer cell, or an infected antigen presenting cell (specialised cells in the body which present protein fragments (peptides) on their surface via MHC). The structure of a TCR and TCR-MHC have been solved in terms of the shape of the molecules at atomic resolution, bringing detailed information on how these two proteins interact with each other. In this proposal the structural basis of antigen presentation and recognition in cell-mediated immunity will be determined by three-dimensional structures of different peptides on MHC by x-ray crystallography. Cell surface antigen presentation by MHC molecules is crucial for initiating the cellular immune response against invading pathogens and cancer. This proposal encompasses a combined biochemical, immunological, and biophysical approach to understand the range of ligands which can bind to MHC which are subsequently recognised by the TCR. To understand the antigenic properties of modified peptides at the structure level, the x-ray structure of MHC with modified bound synthetic peptides will be determined.Read moreRead less
Design And Delivery Of Peptide-based Anti-cancer Grb7 Inhibitors
Funder
National Health and Medical Research Council
Funding Amount
$603,126.00
Summary
The Grb7 protein is overproduced in many types of cancer cells and plays a role in cancer cell growth and spread. The current proposal builds upon the discovery of a peptide-based Grb7 inhibitor that has anti-cancer activity. This proposal is to prepare more potent inhibitor molecules that can efficiently reach the target cancer cells. Such molecules will be used for the study of Grb7 and for the development of a new Grb7-based anti-cancer drug therapy.
SPECIFIC MODIFICATION OF SKELETAL MUSCLE RYANODINE RECEPTOR ACTIVITY
Funder
National Health and Medical Research Council
Funding Amount
$411,000.00
Summary
The project will have implications for muscle fatigue, which is a public health issue in an aging population, and for neuromuscular diseases and muscle weakness. The ryanodine receptor (RyR) calcium release channel regulates changes in calcium concentrations inside the muscle cell that are essential for respiration and movement. Defects in expression of RyRs results in death in utero or at birth. The RyR is also important in many other tissues, where it acts either alone or in combination with a ....The project will have implications for muscle fatigue, which is a public health issue in an aging population, and for neuromuscular diseases and muscle weakness. The ryanodine receptor (RyR) calcium release channel regulates changes in calcium concentrations inside the muscle cell that are essential for respiration and movement. Defects in expression of RyRs results in death in utero or at birth. The RyR is also important in many other tissues, where it acts either alone or in combination with a second type of calcium channel, to regulate the changes in the concentrations of calcium ions within the cell, which are essential for a variety of processes including cardiac contraction, vascular constriction, neuronal activity and immune responses. Despite its importance, little is known about the regulation of the RyR channel opening during contraction in skeletal muscle or the mechanisms of ion movement through its pore. It is often difficult to define the specific role of RyRs in intact tissues because of the lack of specific probes for the channel. The RyR is an obvious target for therapeutic drugs to modify muscle contraction, but has not been used as such because of the lack of specific and reversible drugs. Muscle performance is reduced, and fatigue is rapid, in neuromuscular disease. Performance can be improved by variety of drugs like anabolic steroids which unfortunately have additional adverse actions. The aims of the project are (a) to discover more about the regulation of, and ion conduction pathway through, the skeletal muscle RyR channel, (b) to identify compounds that can be used as specific probes for RyR activity and (c) to identify compounds that might in the future provide the basis for development of the RyR as a therapeutic target.Read moreRead less
Role Of ABCA-G Transporters In Neuronal Cholesterol Regulation And Alzheimers Disease
Funder
National Health and Medical Research Council
Funding Amount
$557,582.00
Summary
Alzheimer's disease (AD) prevalence is rising and the contributing factors are poorly understood. Recent research shows that cholesterol regulates the production of neurotoxic amyloid-beta peptide (Abeta). We will study a class of proteins, ABC transporters, that we believe regulate neuronal cholesterol and Abeta metabolism. We will use isolated brain cells, human brain tissue and genetically engineered mice in order to define how cholesterol influences AD and identify new treatment options.