A New Paradigm For Class I Cytokine Receptor Activation
Funder
National Health and Medical Research Council
Funding Amount
$954,946.00
Summary
Class I cytokine receptors include around 30 receptors with diverse functions such as controlling metabolism and inflammation. Cytokine receptors are molecular switches on cells that receive signals from other cells and transmit this signal into the cell’s nucleus to control the regulation of genes. This project will determine the molecular mechanisms involved in class I cytokine receptors and use this knowledge to develop novel ways to modulate these receptors for clinical applications.
The regulation to early T cell signalling is a critical step in immune responses. Superimposed onto the biochemical pathways is a spatial organization that defines the immunological synapse. My research aims to map the principles of the spatial organization on the molecular scale to identify how lipids could unbalance the dynamic signalling equilibrium, for example in obese patients. To achieve this goal, my research group has developed single molecule microscopy approaches.
Mitogenic And Metabolic Signalling Via The Insulin Recptor Isoform-A
Funder
National Health and Medical Research Council
Funding Amount
$533,541.00
Summary
A novel mechanism of stimulating cancer cell survival and growth has been identified which involves insulin and insulin-like growth factor-II acting via the insulin receptor isoform A. This proposal will identify the mechanisms by which these ligands stimulate growth rather than metabolism via the insulin receptor-A. This information will be used in future design of novel molecules to inhibit cancer growth without interfering with insulin's normal metabolic functions.
A Structural Understanding Of Class B G Protein-coupled Receptor Function
Funder
National Health and Medical Research Council
Funding Amount
$1,289,570.00
Summary
G protein-coupled receptors (GPCRs) are the largest family of cell surface proteins that enable communication from external signals to the inside of cells of the body. Class B GPCRs are a therapeutically important subclass of these receptors and they play crucial roles in bone and energy homeostasis, cardiovascular control and immune response. This grant will uncover fundamental knowledge on how these receptors work, and will enhance future development of therapeutics.
Discovery Early Career Researcher Award - Grant ID: DE180100524
Funder
Australian Research Council
Funding Amount
$365,057.00
Summary
Manipulating selected inflammatory responses in macrophages. This project aims to define the structural and functional interactions of a new transmembrane adaptor SCIMP. SCIMP has recently been shown to effect the inflammatory pathway. The project outcomes will include the first structure of this unconventional complex. The project will have significant flow on benefits including new knowledge and new protein methodologies for end-users in research and industry, and ultimately economic impact.
Novel mechanisms of early growth response-1 activation through the epidermal growth factor receptor. This project will expand our knowledge of how cytokines and growth factors switch on signalling pathways from the cell surface to the nucleus. Unique antibodies will characterise regulatory routes, state-of-the-art microscopy will define dynamic patterns of receptor co-assembly, and in vivo studies will show receptor crosstalk in animal models.
Cardiac a1-adrenergic receptors in survival of the fittest. This project aims to determine the role of alpha1A-adrenergic receptor inactivation, a receptor/signalling pathway, in mediating cardiac contraction and survival in response to stressors fight-or-flight response triggers.Higher organisms’ ability to respond to environmental changes is central to the survival of the fittest, and is mediated by the release of catecholamines that stimulate adrenergic receptors. The precise receptor and sig ....Cardiac a1-adrenergic receptors in survival of the fittest. This project aims to determine the role of alpha1A-adrenergic receptor inactivation, a receptor/signalling pathway, in mediating cardiac contraction and survival in response to stressors fight-or-flight response triggers.Higher organisms’ ability to respond to environmental changes is central to the survival of the fittest, and is mediated by the release of catecholamines that stimulate adrenergic receptors. The precise receptor and signalling pathways underlying these adaptive responses remain unclear. This project’s research could improve contractility, reduce cardiomyocyte death and define organismal adaptation to extreme environmental changes.Read moreRead less
DNA nanotechnology for controlled antigen presentation to T cells. The project aims to present individual antigens to T cells and to image T cell receptor signalling with single molecule microscopy. Combining DNA origami nanotechnology with single molecule imaging should reveal the sensitivity of T cell signalling. A DNA force sensor will determine whether mechanical forces contribute to antigen discrimination. The project will use the nanotechnology strategy to identify antigen-specific T cells ....DNA nanotechnology for controlled antigen presentation to T cells. The project aims to present individual antigens to T cells and to image T cell receptor signalling with single molecule microscopy. Combining DNA origami nanotechnology with single molecule imaging should reveal the sensitivity of T cell signalling. A DNA force sensor will determine whether mechanical forces contribute to antigen discrimination. The project will use the nanotechnology strategy to identify antigen-specific T cells in tissue. The project is expected to advance understanding of T cell biology, and contribute to DNA nanotechnology and super-resolution microscopy whilst providing fundamental insights into antigen recognition by T cells and ultimately derive clinically relevant practical applications.Read moreRead less