IGF BINDING PROTEIN-2 A MODULATOR OF IGF ACTION IN DEVELOPING AND NEOPLASTIC NEURONAL CELLS.
Funder
National Health and Medical Research Council
Funding Amount
$436,980.00
Summary
In early life the brain undergoes rapid growth and remodelling, a process regulated by many factors including the insulin-like growth factor (IGF) system, which potently enhances nerve cell (neuron) survival. Similarly, this system is active in response to brain injury such a stroke, but it may also enhance tumor survival. The regulation of availability of IGFs to the neuron is critical in all these processes. IGF binding protein-2 (IGFBP-2), which is highly abundant in the developing or damaged ....In early life the brain undergoes rapid growth and remodelling, a process regulated by many factors including the insulin-like growth factor (IGF) system, which potently enhances nerve cell (neuron) survival. Similarly, this system is active in response to brain injury such a stroke, but it may also enhance tumor survival. The regulation of availability of IGFs to the neuron is critical in all these processes. IGF binding protein-2 (IGFBP-2), which is highly abundant in the developing or damaged brain, and in tumours, plays a key role on the surface of neurons in regulating IGF availability. We have shown that IGFBP-2 associates with a specialised protein on the nerve cells, where it is further processed to smaller fragments. We believe that these processes are reactivated following brain injury or in cancer states where IGFBP-2 is highly abundant. We propose to determine how IGFBP-2 influences IGF action on the nerve cell surface, and to further ascertain the function of each step in this process. We will achieve this by examining the effects of the mutated version of IGFBP-2, designed to either prevent its binding to the cell surface or its processing to smaller fragments. We will use various human and mouse nerve cell for these studies, which will not only provide greater understanding of the regulation of IGF availability to developing brain cell, but also point to how these processes may be involved in enhancement of recovery from injury or stroke, or possibly in acceleration of tumour growth. The finding of this study will offer the potential for new and exciting treatment designed to alter the function of the IGF system, to either make it more active in response to brain injury or stroke, or less active in brain tumours.Read moreRead less
Hormonal Predictors Of Cardiovascular Outcomes And Mortality In Ageing Men: The Role Of Androgens And The IGF System.
Funder
National Health and Medical Research Council
Funding Amount
$125,035.00
Summary
As men age levels of testosterone and growth hormone fall while ill health increases. We do not know if low hormone levels directly cause heart disease. We will measure testosterone and IGF1, which reflects growth hormone, in 4,200 older men, and relate hormone levels to the future risk of ill health especially heart disease, stroke and large artery blockages. This will clarify whether low hormone levels increase risk of ill health, and the value of studies to test hormone therapy in older men.
Osteoblast Control Of Mesenchymal Progenitor Cell Differentiation: The Role Of Glucocorticoids And Wnt Signalling.
Funder
National Health and Medical Research Council
Funding Amount
$443,131.00
Summary
Osteoporosis is an important and growing health issue. Reduced ability to make new bone is an important cause of osteoporosis. In this project we will study how the immature cells which eventually make bone are recruited and controlled. In particular, we will study how genes coding for important growth factors are regulated so that the proper signals are sent to young cells to induce them to become bone-making rather than fat-making cells.
Glycaemia And Cardiovascular Disease Outcomes In Patients With Diabetes And CKD: Methodology, Relationship And
Funder
National Health and Medical Research Council
Funding Amount
$143,661.00
Summary
Diabetes is increasing and now the primary cause of chronic kidney disease (CKD). At present the care of people with diabetes and CKD aims to achieve normal blood glucose levels in the safest possible way in order to prevent acute and chronic complications and improve outcomes and quality of life. In this project we will examine the best means by which to measure, monitor and treat blood glucose levels in such people and explore the effect of intensive blood glucose control.
I am an academic clinician who has a principal interest in all aspects of diabetes, especially treatment and complications, and who is also involved in studies of antimalarial pharmacology.
Mechanisms Of Pro-atherogenic Effects Of Androgens In Human Vascular Cells
Funder
National Health and Medical Research Council
Funding Amount
$211,320.00
Summary
Atherosclerosis is the most important cardiovascular disease and is now the leading cause of death in Western societies. A major clue to the causality of the disease is the striking gender gap in its prevalence and severity. The gender gap in atherosclerotic cardiovascular disease may be due to genetic, lifestyle or hormonal differences between males and females. Of these, hormonal differences are the most amenable to therapeutic intervention. Accordingly, there has been a lot of interest in the ....Atherosclerosis is the most important cardiovascular disease and is now the leading cause of death in Western societies. A major clue to the causality of the disease is the striking gender gap in its prevalence and severity. The gender gap in atherosclerotic cardiovascular disease may be due to genetic, lifestyle or hormonal differences between males and females. Of these, hormonal differences are the most amenable to therapeutic intervention. Accordingly, there has been a lot of interest in the potential protective effects of estrogens but few have studied the role of androgens with sophisticated approaches to androgen physiology and pharmacology. Clues from epidemiological and our recent studies suggest that androgenic influences on atherosclerosis may involve positive and negative effects on atherogenesis but the mechanisms are not understood. We now propose a comprehensive approach to studying androgenic effects on vascular biology both to enhance knowledge as well as potentially opening new therapeutic options in selective androgen receptor modulation.Read moreRead less
The Physiological Relevance Of Calcitonin In Osteoclast Function
Funder
National Health and Medical Research Council
Funding Amount
$437,640.00
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 5 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, thought to be important inhibitor of osteoclastic bone breakdown. This will be achieved by studying transgenic mice in which the receptor for calcitonin is specifically removed from osteoclasts. This will allow us to precisely determine the role of calcitonin in osteoclast function. 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 the function of osteoclasts. We believe that this research is of great importance as osteoporosis is becoming more prevalent as the population ages.Read moreRead less