What drives the pain associated with inflammation is unknown as is the relationship between pain and the extent of tissue damage associated with disease, for example, arthritis. Our laboratory has shown that a particular protein is a key mediator of inflammatory pain. The project is to understand how this particular protein promotes pain, including how it sensitzes neurons.
Natural Killer (NK) Cells And Development Of Atherosclerosis: Cellular And Molecular Mechanisms
Funder
National Health and Medical Research Council
Funding Amount
$729,571.00
Summary
Atherosclerosis, the accumulation of fat and white cells in the blood vessel wall is the major cause of heart attacks, stroke and death. Cholesterol lowering drugs reduce the risk by only 40%. Targeting cells that promote inflammation is one approach to further reduce risk. We have shown that a specific cell type called a natural killer (NK) cells contributes greatly to development of atherosclerosis. Our aim is to understand how these cells promote development of atherosclerosis.
Many white blood cells have an innate ability to sense infection, and trigger inflammation to fight invading microbes. These innate immune cells use particular receptors to sense pathogens and we have now identified a new pathway that leads to the activation of one of these, known as Pyrin. Genetic mutations can activate this pathway, and our project will determine the molecular basis for this, and how it can be targeted to treat inflammatory disease.
Regulation Of Cytokine Signalling: Structure And Biophysical Characterisation Of Key Protiens
Funder
National Health and Medical Research Council
Funding Amount
$420,872.00
Summary
Cells are informed when to grow, divide, migrate or die by protein molecules called cytokines. The cellular response to cytokines needs to be carefully regulated or else inflammation and other disorders will result. The SOCS (Suppressors Of Cytokine Signalling) family of proteins are a major regulator of cytokine signalling. This work will examine the structure and interactions of this important protein class.
Understanding The Interplay Between ER Stress And Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$560,918.00
Summary
Chronic inflammatory diseases in the gut and lung affect hundreds of thousands of Australians. We have identified how inflammation causes a type of stress resulting in abnormal protein synthesis in the cells which make the barrier to microbes. Following an infection this process might be the trigger for chronic unresolving inflammatory disease. The further understanding of this process we seek in this project is likely to lead new approaches to treat common inflammatory diseases.
Understanding And Applying Macrophage-mediated Effects On Liver Progenitor Cells To Treat Liver Disease.
Funder
National Health and Medical Research Council
Funding Amount
$628,109.00
Summary
As liver cancer risk correlates with increased liver stem/progenitor cell numbers, therapies that reduce their numbers will reduce cancer development. On the contrary, therapies to increase progenitor cell numbers will assist their use in cell therapy-based approaches or artificial liver devices to treat chronic liver disease. This project will determine how to use inflammatory cells to manipulate progenitor cell numbers.
Novel Strategies To Boost Tristetraprolin Function: A Critical Anti-inflammatory Protein In Asthma
Funder
National Health and Medical Research Council
Funding Amount
$547,216.00
Summary
Asthma is a chronic disorder where airways are remodelled, resulting in poor lung function. Airway remodelling is a consequence of long-term inflammation. As current treatments halt some, but not all, aspects of airway remodelling, new therapeutic approaches are urgently required. In this grant, our aim is to devise novel strategies to boost the function of a critical anti-inflammatory protein - TTP - to reduce inflammation in asthma.
Prof McGuckin is studying common chronic diseases (gut and respiratory inflammatory diseases, arthritis, and obesity and diabetes) that are major contributors to poor health in the Australian community and are major contributors to healthcare expenditure. His research includes basic studies elucidating the biological basis of these diseases and then uses this new knowledge to develop new therapeutic approaches to treatment. The new therapeutic approaches will be tested in model systems as a prel ....Prof McGuckin is studying common chronic diseases (gut and respiratory inflammatory diseases, arthritis, and obesity and diabetes) that are major contributors to poor health in the Australian community and are major contributors to healthcare expenditure. His research includes basic studies elucidating the biological basis of these diseases and then uses this new knowledge to develop new therapeutic approaches to treatment. The new therapeutic approaches will be tested in model systems as a prelude to clinical trials.Read moreRead less
Structural And Functional Studies Of The Human IL-3 Receptor
Funder
National Health and Medical Research Council
Funding Amount
$307,946.00
Summary
This proposal will study a protein hormone that is implicated in blood cell cancers and inflammatory diseases and for which current treatments are inadequate. We will determine how the hormone receptor becomes activated, identify and characterise new agents that block this activation. This information will help in the development of new and highly specific drugs for use in certain cancers in inflammatory diseases.
There are two arms to the immune system, one that learns and adapts, which can cause autoimmune disease, and another that is immediate and innate, and can cause autoinflammatory disease. This proposal continues our work in the characterization of rare genetic autoinflammatory disesaes and extrapolates these studies to more common chronic inflammatory diseases. This stands to improve current diagnosis and treatment, and elucidate future drug targets that could be targeted clinically.