After infection with viruses, parasites and bacteria the protein SerpinB2 becomes very abundant in macrophages, which are white blood cells involved in inflammation. Unfortunately, what this protein is doing is very unclear. We have found that macrophage SerpinB2 dampens the responses of other immune cells. This grant aims to determine how this is achieved and thereby help resolve the role of this protein in a number of diseases such as cancer, lupus, asthma and pre-eclampsia.
A New Master Adaptor Protein For Toll-like Receptor Signalling
Funder
National Health and Medical Research Council
Funding Amount
$869,288.00
Summary
Certain proteins on the surface of cells are able to sense danger and infection. These receptors use adaptor proteins to enable cells to respond appropriately. We have discovered a new adaptor that controls receptor signalling in inflammation. This new master adaptor likely has widespread roles in infection and inflammation. We aim to understand how this adaptor works, and to identify ways of blocking its actions. These studies may help us to control inflammation underpinning many diseases.
Profiling Global Inflammatory Signatures For GPCRs In Human Macrophages
Funder
National Health and Medical Research Council
Funding Amount
$687,770.00
Summary
Macrophages are important white blood cells of the immune system. They trigger inflammatory responses to infection or injury, but prolonged inflammatory responses can lead to chronic diseases. In this project we aim to better understand how macrophages sense the outside environment, how external signals trigger inflammatory processes, how this leads to diseases such as autoimmune and inflammatory diseases, cancer and cardiovascular diseases, and how to control them with drugs.
The Regulation Of Pleiotropic Responses By Bidentate Motifs Embedded In The Fibroblast Growth Factor Receptors
Funder
National Health and Medical Research Council
Funding Amount
$489,336.00
Summary
Cells in our bodies are able to accomplish an impressive array of functions. Diffusible factors (called growth factors) are important in regulating diverse cellular functions. We have identified a new molecular switch inside cells that acts as a master controller of cellular functions. This molecular switch relays information to instruct specific cellular functions. We have shown that these molecular switches are short-circuited in breast cancer promoting cell growth and survival.
Mapping The TNF Pathway: A Qualitative And Quantative Molecular Analysis Of The Components And Post-translational Modifications Involved In Physiological And Pathological TNFR1 Signalling
Funder
National Health and Medical Research Council
Funding Amount
$636,258.00
Summary
TNF is a master regulator of the inflammation response and dysregulated TNF signalling causes many human diseases. We will use a cutting edge mass spectrometry technique that we have developed to analyse molecules required for TNF signalling. Understanding how the TNF signalling works in all cell types and with different forms of ligands will open up therapeutic opportunities to selectively target TNF signalling in inflammatory diseases, such as Rheumatoid Arthritis and Cancer.
How Lipids Affect Signalling Efficiencies In T Cells
Funder
National Health and Medical Research Council
Funding Amount
$472,882.00
Summary
A high fat diet can compromise the function our immune system. This project examines how lipids affect T cells. We propose that T cells from mice on a high fat diet can no longer respond to an immune challenge because the signalling processes that lead to activation are deregulated. We have established a new microscopy technique that allows us to measure the efficiency of signalling processes. We will use this method to identify which lipids contribute the most to T cell deregulation.
Spatial Organization Of Lck As A Regulatory Mechanism Of TCR Signalling
Funder
National Health and Medical Research Council
Funding Amount
$601,263.00
Summary
To function in an immune response, T cell become activated when the interactions between the T cell receptor and the kinase Lck on the cell surface results in intracellular signals. Here, we will investigate how the kinase is organized on the cell surface during receptor activation and what intrinsic and extrinsic parameters regulate its organization. The research is based on novel single molecule imaging tools and will provide new insights into the regulation of T cell activation.
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 define new mechanisms for the regulation of TCR-mediated T cell responses. Our studies may yield novel insight into processes that contribute to the development of type 1 diabetes & inflammatory bowel disease.
Molecular Targeting Of Innate Immune Signalling Pathways In Cancer And Auto-Inflammatory Diseases
Funder
National Health and Medical Research Council
Funding Amount
$753,300.00
Summary
To achieve an accurate molecular understanding of innate immune system receptor signalling, both intracellularly and in whole organisms, in health and disease. This knowledge will then be used to generate better treatments for the extensive range of human diseases that are caused or exacerbated by dysfunctional innate immune signalling, including Crohn's disease, psoriasis and cancer.
This application describes a research proposal that will achieve an accurate molecular understanding of innate immune system receptor signalling in health and disease. This knowledge will then be used to generate better treatments for the extensive range of human diseases that are caused or exacerbated by dysfunctional innate immune signalling, including Crohn's disease, psoriasis and cancer.