My research is directed to the prevention of diabetes, across the spectrum from type 1 to type 2 diabetes. It is based on understanding immune-inflammatory mechanisms that contribute to dysfunction and death of pancreatic insulin-secreting beta cells and tissue resistance to the action of insulin. I study these mechanisms in rodent models and in humans in the context of relevant environmental factors and genes, with the aim of manipulating them for therapeutic benefit.
At least 6 young Australians are diagnosed each day with type 1 diabetes. This Program aims to change the way type 1 diabetes is managed by proactively treating its underlying mechanisms. We will develop safer and more effective immune therapies, develop islet transplantation, look for better markers of disease, and identify ways to preserve insulin-producing cells. The Program aims to propel type 1 diabetes research forward to reach the goals of prevention and cure.
Cellular Pathogenesis Of Key Proteins Involved In Neurodegenerative Disorders
Funder
National Health and Medical Research Council
Funding Amount
$312,730.00
Summary
Prion proteins are involved in neurodegenerative diseases such as Creutzfeldt-Jakob disease (CJD) and Bovine Spongiform Encephalopathy (BSE). The aim of this research proposal is to investigate factors which can change the prion protein from a normal, benign, form into an abnormal shape which can cause disease. The outcomes of this work will provide further insight into the role of prion proteins in these diseases and also for other neurodegenerative disorders such as Alzheimer's disease.
My research is directed to the prevention of type 1 diabetes, based on understanding immune-inflammatory mechanisms that contribute to dysfunction of insulin-secreting beta cells and tissue resistance to the action of insulin. I study these mechanisms in rodent models and in humans with the aim of manipulating them for therapeutic benefit. I am particularly interested in understanding environment-gene interactions mediated by epigenetic modifications.
Role Of Heparan Sulfate, Heparanase Inhibitors In The Development And Prevention Of Type 1 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$3,242,772.00
Summary
Our recent studies have shown that a special protein (an enzyme called heparanase) and the special carbohydrate (heparan sulfate or HS) that it degrades, play a previously unrecognised role in the development of Type I diabetes (T1D) in mice. We will explore whether destructive immune cells use heparanase to damage insulin-producing islets and deplete them of HS, resulting in islet cell death and T1D. We will develop new agents to inhibit this damage, prevent T1D and protect islet transplants.
Investigations In Multiple Sclerosis Patients With Coexistent Autoimmune Thyroid Disease
Funder
National Health and Medical Research Council
Funding Amount
$557,100.00
Summary
Multiple sclerosis (MS) is a common chronic neurological disease affecting over one million people around the world. MS is generally thought to be an autoimmune disease, in which a person's own immune cells start to attack components of the brain and spinal cord. However, it is thought that the same components are not attacked in all patients, and that the pathway that leads to MS varies from one person to another. Therefore, in order to develop successful treatment strategies for MS, it will be ....Multiple sclerosis (MS) is a common chronic neurological disease affecting over one million people around the world. MS is generally thought to be an autoimmune disease, in which a person's own immune cells start to attack components of the brain and spinal cord. However, it is thought that the same components are not attacked in all patients, and that the pathway that leads to MS varies from one person to another. Therefore, in order to develop successful treatment strategies for MS, it will be necessary to look for patterns in the clinical symptoms and signs and other features of a person's MS that may give clues as to which particular pathway is leading to disease in that person. Some people who develop MS also develop other autoimmune diseases, or have these other diseases before they develop MS, or have other family members who have other autoimmune diseases. We have recently found that people who have the same combination of coexistent MS and autoimmune thyroid disease (AITD) show similar clinical signs of MS, and tend to have damage (lesions) to the same areas of their nervous system. This suggests that these people may have the same underlying pathways leading to the development of MS, and that they may be a very informative group in which to look for immune or genetic abnormalities that might explain why they develop MS. This project will investigate people who have both MS and AITD and other members of their families to see if we can work out what the links are between having the same combination of autoimmune diseases and developing lesions in particular parts of the nervous system. It will provide information on the pathways that lead to the development of MS, and information obtained from this study may eventually be of use in developing more specific therapeutic agents, by tailoring therapies to specific people with MS, depending on the clinical and immunological profile of that person.Read moreRead less
The Influence Of NF-KB In The Development Of Autoimmunity And Cancer In Fas/FasL Mutant Mice
Funder
National Health and Medical Research Council
Funding Amount
$596,925.00
Summary
Apoptotic cell death is an essential process in the human body, it removes useless and dangerous cells, preventing autoimmune disease and cancer. Apoptosis is activated when the surface receptor Fas is stimulated by its ligand, FasL, but defective signalling causes disease associated with deregulated NF-?B activation. We will investigate how faulty FasL-induced apoptosis cooperates with deregulated NF-kB activation or defective Aire (immunological tolerance orchestrator) results in autoimmunity.
Foreign DNA is a danger signal for mammalian cells. This project investigates how cells normally respond to foreign DNA, and is relevant to understanding how the body fights infections, particularly by viruses. The results will help us to design more effective treatments for infectious disease. Studying responses to DNA will also promote the design of new treatments for the autoimmune disease lupus, and help improve technologies or treatments where DNA is introduced into cells or tissues. This ....Foreign DNA is a danger signal for mammalian cells. This project investigates how cells normally respond to foreign DNA, and is relevant to understanding how the body fights infections, particularly by viruses. The results will help us to design more effective treatments for infectious disease. Studying responses to DNA will also promote the design of new treatments for the autoimmune disease lupus, and help improve technologies or treatments where DNA is introduced into cells or tissues. This includes gene therapy, new strategies for vaccination, and the production of proteins as drugs by biotechnology. The project will promote National Research Priorities in the areas of preventative healthcare, ageing well ageing productively, breakthrough science and new technologies.Read moreRead less