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Novel Endocrine Approaches To Diagnosis & Treatment Of Men With Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$926,980.00
Summary
Most men are diagnosed with localised prostate cancer, others have advanced disease. Vision: Identify how tumours are insignificant vs aggressive (Aim 1.1 & 1.2). Predict which tumours will progress to incurable disease (Aim 1.3) and how to target them (Aim 1.4). Discover how each patient tumour is different (Aim 2.1) and pre-clinically test new therapies (Aim 2.2). Outcomes: practice changing discoveries that identify novel therapeutic targets & biomarkers improving diagnosis and treatment.
Molecular Characterisation Of Steroid Hormone-dependent Diseases Of The Cardiovascular And Reproductive Systems
Funder
National Health and Medical Research Council
Funding Amount
$1,085,790.00
Summary
Peter Fuller is both a molecular and clinical endocrinologist. His research examines steroid hormones in cardiovascular disease and cancer. The hormone aldosterone controls blood pressure and has a significant role in cardiac failure. This work will enable the development of tissue-specific blockers of aldosterone for the treatment of cardiovascular disease. Steroid hormones also have a role in granulosa cell tumours of the ovary and breast cancer; new insights will lead to novel therapeutics.
Research Fellowship – Genetic Epidemiology Studies Of Hormonal Cancers To Inform Improved Healthcare
Funder
National Health and Medical Research Council
Funding Amount
$772,209.00
Summary
This study aims to identify genetic factors that influence the development of endometrial and other cancers, and to develop statistical and laboratory methods that can better determine if variation in a known cancer gene is disease-causing. The results will be used to identify and prioritise individuals at greatest risk of cancer for the most appropriate clinical management. Discovery of novel cancer genes will improve our understanding of disease development to develop future therapies.
Ovarian and endometrial cancer affect >3,200 women each year in Australia and 3 or 4 women die from these cancers every day. The overall aim of my program of research is to reduce the burden of these cancers in future generations of Australian women by increasing our understanding of (i) what causes them, (ii) how we can optimise patient management to enhance patient outcomes and (ii) how lifestyle changes might improve quality and life and survival, for women who are diagnosed with them.
Pancreatic Islet Inflammation And Its Role In Diabetes And Islet Transplantation
Funder
National Health and Medical Research Council
Funding Amount
$707,370.00
Summary
Diabetes is a major health epidemic & diabetic complications are a major cause of morbidity and mortality in our community. My studies have increased our understanding of how inflammation contributes to diabetes but also directly led to the discovery of novel therapies that are been trialed in patients with type 1 diabetes undergoing islet cell transplants. My studies have increased our knowledge of the factors that lead to type 1 diabetes and the development of new treatments.
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.
Understanding The Basis Of Autoimmunity In Rheumatoid Arthritis And Type 1 Diabetes To Underpin The Implementation Of Antigen-specific Therapies
Funder
National Health and Medical Research Council
Funding Amount
$847,490.00
Summary
In autoimmune diseases chronic organ-specific or systemic inflammation has devastating and destructing consequences. In rheumatoid arthritis (RA) and type 1 diabetes (T1D), HLA contribute the major genetic susceptibility. HLA proteins present the antigens which underlie disease development. This proposal underpins my vision for development of antigen-specific therapy in RA and T1D, examining interaction between HLA molecules and antigen and disease, and risk markers for T1D development.
Investigating Pathways To Alleviate The Burden Of Diabetes And Kidney Disease
Funder
National Health and Medical Research Council
Funding Amount
$622,655.00
Summary
Diabetes affects more than 1.2 million Australians and up to 40% of these will develop complications including kidney disease. Excess blood sugar as the result of diabetes can accelerate a biochemical process called advanced glycation, which permanently alters proteins affecting their structure and function. My research will focus on identifying new therapies to target advanced glycation as well as dysfunction of cell power stations, mitochondria which is caused by advanced glycation.
I study hormone action at the molecular level, particularly that of growth hormone action. I focus on the mechanism of activation of its receptor, notably as a target for cancer therapy, since growth hormone is necessary for the progression of many types of cancer. The ability of growth hormone to activate neural stem cells for a prolonged period in response to voluntary exercise is also a key interest. So too is the 40% extension of lifespan in mice after genetically deleting the growth hormone ....I study hormone action at the molecular level, particularly that of growth hormone action. I focus on the mechanism of activation of its receptor, notably as a target for cancer therapy, since growth hormone is necessary for the progression of many types of cancer. The ability of growth hormone to activate neural stem cells for a prolonged period in response to voluntary exercise is also a key interest. So too is the 40% extension of lifespan in mice after genetically deleting the growth hormone receptor.Read moreRead less
Protein tyrosine phosphatases (PTPs) control cell communication networks referred to as cellular signaling. This proposal is focused on understanding the roles of PTPs in cellular signaling networks perturbed in human disease & delineating novel opportunities for therapeutic intervention