The Function Of The Natural Antisense Ghrelin Receptor Gene (GHSROS) In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$493,750.00
Summary
Lung cancer is the most common cause of cancer deaths in men and women in the world and the incidence in Australia is rising with our aging population. Survival rates for lung cancer are very poor. We have discovered a new gene that is produced by lung cancer cells and may contribute to the aggressive nature of this disease. We will investigate this gene to determine if it could be a useful target for new therapies for lung cancer and it determine its utility as a biomarker for the severity of t ....Lung cancer is the most common cause of cancer deaths in men and women in the world and the incidence in Australia is rising with our aging population. Survival rates for lung cancer are very poor. We have discovered a new gene that is produced by lung cancer cells and may contribute to the aggressive nature of this disease. We will investigate this gene to determine if it could be a useful target for new therapies for lung cancer and it determine its utility as a biomarker for the severity of the disease.Read moreRead less
The Physiological Role Of Calcitonin And Its Receptor In Bone Cell Metabolism.
Funder
National Health and Medical Research Council
Funding Amount
$496,446.00
Summary
Throughout adult life, bone tissue is continuously remodelled. The two main processes involved in bone remodelling, are bone formation and bone breakdown. Bone formation is controlled by cells known as osteoblasts and bone breakdown is controlled by cells known as osteoclasts. Under normal circumstances these two processes are tightly coupled. Excessive breakdown of bone, causes these two processes to become unbalanced and results in bone loss. This is the basis of many bone diseases such as ost ....Throughout adult life, bone tissue is continuously remodelled. The two main processes involved in bone remodelling, are bone formation and bone breakdown. Bone formation is controlled by cells known as osteoblasts and bone breakdown is controlled by cells known as osteoclasts. Under normal circumstances these two processes are tightly coupled. Excessive breakdown of bone, causes these two processes to become unbalanced and results in bone loss. This is the basis of many bone diseases such as osteoporosis, a condition in which the bones become fragile and therefore more susceptible to fracture. 1 in 2 women and 1 in 3 men aged 70 years and older suffer from osteoporosis in Australia. Despite this, the mechanisms which control osteoclast breakdown of bone are not well understood. Our laboratory is interested in how hormones affect osteoclast action. We plan to examine the role of the hormone calcitonin, an important inhibitor of osteoclastic bone breakdown. This will be achieved by studying transgenic mice in which the receptor, or target, for calcitonin is specifically removed from osteoclasts. This will allow us to precisely determine the role of calcitonin in osteoclast function. Data generated by our research group indicates that calcitonin is also involved in controlling bone formation, however, the way in which calcitonin acts on osteoblasts remains poorly understood. Therefore, studying our transgenic mice will also help clarify the role calcitonin plays in bone formation. Current treatment for osteoporosis involves the administration of drugs which inhibit bone breakdown. This project will increase our understanding of how calcitonin acts to regulate bone breakdown and bone formation and may assist in the design of new therapies for osteoporosis. We believe that this research is of great importance as osteoporosis is becoming more prevalent as the population ages.Read moreRead less
The Role Of A Protease Activated Receptor System In Prostate Cancer Bone Metastasis.
Funder
National Health and Medical Research Council
Funding Amount
$582,204.00
Summary
Prostate cancer is one of the most significant health issues for men. This disease occurs because certain proteins start to function abnormally. Our focus is on a protein called PAR2, present on the surface of prostate cancer cells and bone cells, which we propose helps cancer cells to spread to bone. In our project, we aim to understand how this happens so that we can develop ways to block prostate cancer metastasis to bone.
A Novel Approach To Streamlining The Diagnosis Of Primary Aldosteronism
Funder
National Health and Medical Research Council
Funding Amount
$269,463.00
Summary
This study will assess a new clinical test used to diagnose a potentially curable form of high blood pressure called primary aldosteronism (PA). If successful, the test will greatly streamline and simplify the diagnosis of this condition, with the potential for enormous cost savings and a markedly increased rate of diagnosis of patients with PA who can then benefit from optimal treatment and improved quality of life.
Elucidating Genetic Mechanisms Responsible For Familial Hyperaldosteronism Type II
Funder
National Health and Medical Research Council
Funding Amount
$424,812.00
Summary
Primary aldosteronism (PAL) is the commonest specifically treatable and potentially curable form of hypertension (high blood pressure), a common disease, expensive to treat, with serious morbidity and mortality. This project will use cutting edge technology to gain new knowledge concerning how genes regulate the body's production of aldosterone (salt hormone), which will help us understand how PAL develops and how common it is, and could lead to better approaches to diagnosis and treatment.
Aromatase Regulation By P53 And HIF-1alpha In Obesity And Post-menopausal Breast Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$607,523.00
Summary
Current hormone therapy for breast cancer using inhibitors of oestrogen production results in serious side-effects including bone loss, joint pain and possibly cognitive issues. Our current work is aimed at understanding how oestrogen production is regulated with the goal of developing breast-specific inhibitors of oestrogen production to obviate these problems. In addition, this work is aimed at devising therapeutic intervention to break the linkage between obesity and breast cancer.
Validating A New Model For Growth Hormone Receptor Activation
Funder
National Health and Medical Research Council
Funding Amount
$472,500.00
Summary
Growth hormone is an important hormone therapeutic for treating dwarfism. Recently, many new therapeutic applications for growth hormone have been discovered, particularly in relation to its anabolic actions. These include post surgery recovery, enhanced bone fracture healing, Crohns disease, dilated cardiomyopathy, infertility and ageing. The hormone exerts these actions through its receptor, which is a class1 cytokine receptor, similar to many receptors important in regulating immunity, inflam ....Growth hormone is an important hormone therapeutic for treating dwarfism. Recently, many new therapeutic applications for growth hormone have been discovered, particularly in relation to its anabolic actions. These include post surgery recovery, enhanced bone fracture healing, Crohns disease, dilated cardiomyopathy, infertility and ageing. The hormone exerts these actions through its receptor, which is a class1 cytokine receptor, similar to many receptors important in regulating immunity, inflammation, metabolism and cancers. In principle, if we can find out how the GH receptor works, this information would help in designing drugs to treat many immune and inflammatory disorders. With current NHMRC support we have developed a model which describes how GH activates the receptor at a molecular level. The model involves two pre-associated receptors at the cell surface binding to the hormone, with the result that the receptors are rotated relative to each other, and this brings the two JAK2 signalling units attached tothe receptor inside the cell into alignment, so they can activate each other. We can activate the receptor without hormone by artificially rotating it. This model is a prediction based on several techniques, but lacks proof of rotation. There are also a number of issues relating to the need for rigidity in the receptors, so the torque can be transmitted into the cell, since many believe there is no rigidity just above the membrane. We predict there is , but need to prove this. This information is vital for designing small orally active mimics of growth hormone, and for developing GH antagonists, likely to be useful for breast and colon cancer. Finally, we have evidence that the specificity of receptor signalling can be changed by mutating the outer part of the receptor (novel). We believe this can be used to change the activity spectrum of GH, hence decrease side effects, by developing analogs which activate one pathway or the other.Read moreRead less
NR1 Nuclear Hormone Receptors, And Skeletal Muscle Metabolism: Insights Into Dyslipidemia And Metabolic Disease.
Funder
National Health and Medical Research Council
Funding Amount
$582,547.00
Summary
The significance of Nuclear hormone receptors (NRs) in disease is underscored by the range of pharmacopoeia for the treatment of NR-associated disorders (e.g 16% of the top 100 drugs target NRs). Orphan NR1 receptors are abundantly expressed in skeletal muscle, a major mass peripheral tissue that accounts for ~40% of total body weight, and energy expenditure. Muscle is the major site of glucose metabolism and, fatty acid oxidation. Furthermore, it is an important regulator of cholesterol homeost ....The significance of Nuclear hormone receptors (NRs) in disease is underscored by the range of pharmacopoeia for the treatment of NR-associated disorders (e.g 16% of the top 100 drugs target NRs). Orphan NR1 receptors are abundantly expressed in skeletal muscle, a major mass peripheral tissue that accounts for ~40% of total body weight, and energy expenditure. Muscle is the major site of glucose metabolism and, fatty acid oxidation. Furthermore, it is an important regulator of cholesterol homeostasis and HDL levels. Consequently, it has a significant role in insulin sensitivity, the blood lipid profile, lipid metabolism and obesity. Understanding the functional role of the orphan NR1 receptors in skeletal muscle in the context of inflammation, lipid and energy homeostasis is of paramount importance in further understanding the mechanistic basis of dyslipidemia, chronic inflammation, insulin sensitivity, diabetes and obesity. Identification of novel NR1 targets that regulate metabolism in a major mass peripheral tissue, and positively influence the risk factors for cardiovascular disease, provides platforms for potential therapeutic intervention. Cardiovascular disease is the foremost cause of global mortality, and was responsible for >15 million deaths in 2003.Read moreRead less