I am a clinician-scientist investigating the immunopathogenesis of rhematoid arthritis in order to discover and develop new forms of therapy and prevent disease complications. I am interested in improving patient care through research on patient educatio
The Role Of Post-translationally Modified Antigen In Rheumatoid Arthritis
Funder
National Health and Medical Research Council
Funding Amount
$609,535.00
Summary
Rheumatoid arthritis (RA) is an inflammatory disease of joints. People who get RA often develop antibodies which react against proteins found in inflamed joints. We will investigate why cells of the immune system react against these proteins in RA, and identify which joint proteins, especially abnormal proteins, are targeted. This will allow us to design new approaches to treat RA in a way that just targets the response to these abnormal proteins, rather than the entire immune system.
Characterisation Of The Anti-inflammatory Properties Of The N-3 Fatty Acid Product, 4-hydroxy-hexenal.
Funder
National Health and Medical Research Council
Funding Amount
$524,559.00
Summary
A concerted effort is being made by experts in the field of omega 3 fats (fish oils) to make specific recommendation on their use to improve human health . We have reasoned that the characterisation of a major oxidation product of these oils could be a key to understanding how these fats benefit us. The project is likely to influence the formulation of fish oils to enhance their health promoting properties.
Centre For Translational Pathology Research And Training
Funder
National Health and Medical Research Council
Funding Amount
$2,677,639.00
Summary
The Centre for Translational Pathology Research and Training is a collaborative network involving nine hospitals and research institutes affiliated with The University of Melbourne. It's goal is train a cadre of molecular pathologists experienced in collaborative multidisciplinary research who can effective translate research discoveries and inventions in to clinically useful diagnostic tests that will enable oncologists to individualise treatment decisions for patients with cancer, based on the ....The Centre for Translational Pathology Research and Training is a collaborative network involving nine hospitals and research institutes affiliated with The University of Melbourne. It's goal is train a cadre of molecular pathologists experienced in collaborative multidisciplinary research who can effective translate research discoveries and inventions in to clinically useful diagnostic tests that will enable oncologists to individualise treatment decisions for patients with cancer, based on the unique biology of the individual's tumour.Read moreRead less
The Role Of Suppressor Of Cytokine Signalling-3 (SOCS-3) In Chondrocytes During Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$348,392.00
Summary
Cytokines are messenger proteins produced and secreted from one cell which then bind to specific receptors on the surface of other cells. After binding, a series of intracellular events occurs, termed signalling, that results in the target cell changing its behaviour. Cytokine signalling, if allowed to proceed unchecked, can result in various disease states. The suppressor of cytokine signalling (SOCS) proteins are key negative regulators of cytokine signalling within the cell. They are induced ....Cytokines are messenger proteins produced and secreted from one cell which then bind to specific receptors on the surface of other cells. After binding, a series of intracellular events occurs, termed signalling, that results in the target cell changing its behaviour. Cytokine signalling, if allowed to proceed unchecked, can result in various disease states. The suppressor of cytokine signalling (SOCS) proteins are key negative regulators of cytokine signalling within the cell. They are induced by a wide range of stimuli, especially from a group called the IL-6 family. We have preliminary data showing that cartilage cells (chondrocytes) normally produce a particular SOCS protein, called SOCS-3. We have also shown that when SOCS-3 production is dysregulated, the chondrocytes undergo excessive proliferation. Normal chondrocyte function is important during skeletal development and diseases such as osteoarthritis are thought to result from abnormal chondrocyte behaviour. It is likely that SOCS-3 has a key role in regulating chondrocyte function. The aim of this proposal is therefore to examine the role of SOCS-3 in chondrocytes, during development and in disease. Much of our understanding of the role of the SOCS proteins comes from the construction of mutant mice that lack a particular SOCS protein. When mutant mice are made that lack SOCS-3 in the whole animal the mice die before birth and so virtually nothing is known about the role of SOCS-3 in chondrocytes and the implications for cartilage in disease states, such as arthritis. To answer this we will create mice that lack SOCS-3 specifically in their chondrocytes. Evaluating the role of SOCS-3 in cartilage development and chondrocyte function during degenerative and inflammatory disease states is potentially of major clinical importance in improving our understanding of arthritis and of cartilage repair.Read moreRead less
Defining The Role Of GILZ In Inflammatory Arthritis
Funder
National Health and Medical Research Council
Funding Amount
$675,030.00
Summary
Corticosteroids are commonly used to treat inflammatory diseases such as arthritis. Their action is based on effects on natural inflammation control pathways. One such pathway is that mediated by the protein known as GILZ (glucocorticoid induced leucine zipper). The function of this protein in disease is not well understood, and the research proposed here will increase understanding of its role. This knowledge could yield new treatments for arthritis and other inflammatory diseases.
The Effect Of Hepatic Pseudocapillarisation Of Old Age On The Disposition Of Chylomicron Remnants And Chylomicrons
Funder
National Health and Medical Research Council
Funding Amount
$204,750.00
Summary
Old age is the major risk factor for atherosclerosis, and vascular disease secondary to atherosclerosis (eg heart attacks and strokes) is the major cause of death and disability in the Western World. As yet there has not been any clear explanation for why old age itself is a risk factor for atherosclerosis. In this study, we are investigating how changes in the liver in old age predispose to hyperlipidaemia and hence vascular disease. We recently discovered changes in the blood vessels of the li ....Old age is the major risk factor for atherosclerosis, and vascular disease secondary to atherosclerosis (eg heart attacks and strokes) is the major cause of death and disability in the Western World. As yet there has not been any clear explanation for why old age itself is a risk factor for atherosclerosis. In this study, we are investigating how changes in the liver in old age predispose to hyperlipidaemia and hence vascular disease. We recently discovered changes in the blood vessels of the liver that occur with old age that we have called pseudocapillarisation. These changes have profound effects on the transport of many substrates including toxins, drugs, oxygen, hormones and lipids from the blood into the liver and thus may explain in part the fact that old age is the major risk factor for many diseases and adverse drug reactions. In this study we are interested in the transfer of fats called chylomicron remnants from blood into the liver. Chylomicron remnants are lipoproteins rich in triglycerides that are produced after meals and broken down by the liver. In order to be metabolised, chylomicron remnants must pass through pores in the liver blood vessels called fenestrations. In old age, we have found that these fenestrations are reduced substantially, which will impair the uptake of chylomicron remnants by the liver, leading to marked increases in fat in the blood stream after meals. In this study, we will examine the effects of old age on the ability of the liver to metabolise chylomicron remnants, in particular focussing on the effects of the age-related loss of fenestrations on chylomicron remnant uptake. As well as providing an understanding of the crucial link between ageing and atherosclerosis, the studies will provide a potential new therapeutic target for the prevention of atherosclerosis in older people.Read moreRead less
The Role Of The Plasminogen Activators (PAs), Urokinase-PA And Tissue-type PA In Arthritis
Funder
National Health and Medical Research Council
Funding Amount
$481,500.00
Summary
Many diseases, such as rheumatoid arthritis (RA), are inflammatory by nature. Intra-articular fibrin deposition is an early and persistent hallmark of inflammatory responses, resulting from an altered balance between coagulation (the production of fibrin) and fibrinolysis (the breakdown of fibrin). This fibrin accumulation can have adverse effects in RA, including mediating and-or enhancing inflammation, and contributing to subsequent joint damage. The plasminogen activators (PA), urokinase PA ( ....Many diseases, such as rheumatoid arthritis (RA), are inflammatory by nature. Intra-articular fibrin deposition is an early and persistent hallmark of inflammatory responses, resulting from an altered balance between coagulation (the production of fibrin) and fibrinolysis (the breakdown of fibrin). This fibrin accumulation can have adverse effects in RA, including mediating and-or enhancing inflammation, and contributing to subsequent joint damage. The plasminogen activators (PA), urokinase PA (u-PA) and tissue-type PA (t-PA) convert plasminogen into plasmin which can then breakdown the accumulated fibrin. Their presence in RA patients would therefore be beneficial. However, u-PA is also implicated in cell migration leading to inflammatory cells accumulating in the joint, and cartilage destruction, both of which are detrimental to disease outcome. In the joints of RA patients there are high levels of u-PA and low levels of t-PA. We, and our collaborators, have found that in the absence of t-PA, disease is exacerbated, whilst in the absence of u-PA, the outcome depends on the type of disease, either exacerbating or ameliorating disease. This highlights the different roles u-PA can have. The current proposal aims to determine the role of u-PA in inflammation and arthritis, and whether enhancing t-PA can have beneficial outcomes with respect to disease severity. In addition, we will also study whether intra-articular fibrin deposition can, in fact, drive the inflammatory reaction and cartilage destruction seen in RA. The findings will be important for our understanding of the role of fibrin accumulation in the inflammatory and destructive processes that occur in RA, and the roles of u-PA and t-PA in enhancing and preventing them respectively. Information gained will provide clues for useful strategies for the treatment of human inflammatory diseases, including RA.Read moreRead less