The Role Of Insulin Hypersecretion In Beta Cell Dysfunction In Type 2 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$318,622.00
Summary
The treatment of diabetes involves the use of drugs that stimulate the release of insulin from the pancreas to reduce the high blood sugar levels. However, we believe that while in the short term this is a good strategy, in the long-term it damages the cells that produce insulin leading to a worsening state of diabetes. It is the aim of this application to understand the mechanisms by which the insulin producing cells are damaged when forced to oversecrete insulin.
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
Regulation And Functional Roles Of ADAM 10 Protease In Prostate Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$465,750.00
Summary
Prostate cancer is the second most common cause of cancer death among western males. Most deaths from prostate cancer are due to the development of secondary tumours (metastases) in other body organs. Metastasis involves actions of enzymes, (called metalloproteinases) which can break down the tissue structure surrounding tumour cells, and actions of a family of proteins (called integrins)that control how cells stick to each other or to other tissue components. Both these actions allow tumour cel ....Prostate cancer is the second most common cause of cancer death among western males. Most deaths from prostate cancer are due to the development of secondary tumours (metastases) in other body organs. Metastasis involves actions of enzymes, (called metalloproteinases) which can break down the tissue structure surrounding tumour cells, and actions of a family of proteins (called integrins)that control how cells stick to each other or to other tissue components. Both these actions allow tumour cells to break free from their original tissue positions, walk through surrounding tissue and deposit themselves at distant sites to form a secondary tumour. In this research we are looking at a protein, called ADAM-10, which belongs to a family of proteases, the ADAMs, which contain both A Disintegrin And Metalloprotease activity, hence their name. Our data suggest ADAM-10 is produced in large quantities by prostate cancer cells but can be differently located within these cells it sits on the outer membrane of normal or benign prostate glands but re-locates to the cell nucleus in high grade prostate cancer cells. We have also identified ADAM-10 protein in small membrane fragments that are commonly shed from prostate cancer cells. Preliminary evidence suggests that levels of ADAM-10 in each of these locations is regulated by growth factors and-or the male sex hormone, androgen, key hormones involved in prostate cancer growth and progression. We do not yet know what actions ADAM-10 has when it occurs in these different locations but believe the membrane form will be involved in metastasis, with the nuclear form being involved in regulating events within the nucleus, the control centre for the cell. This grant application aims to build on our novel observations and investigate the underlying mechanisms of ADAM-10 hormonal regulation and function. If proven, these issues may be important for the development, progression and future treatment of prostate cancer.Read moreRead less
Genetic And Metabolic Determinants Of Spontaneous Physical Activity
Funder
National Health and Medical Research Council
Funding Amount
$67,828.00
Summary
It could be argued that obesity is the most significant public health problem facing Australians today. Almost one in five adult Australians are obese, making them highly susceptible to diabetes, coronary heart disease, high blood pressure, high blood lipid levels, and some cancers, as well as reduced psychosocial health. There is therefore an urgent need to reduce the prevalence of obesity in our society. Unfortunately, attempts to sustain significant weight loss by dieting and exercise are nea ....It could be argued that obesity is the most significant public health problem facing Australians today. Almost one in five adult Australians are obese, making them highly susceptible to diabetes, coronary heart disease, high blood pressure, high blood lipid levels, and some cancers, as well as reduced psychosocial health. There is therefore an urgent need to reduce the prevalence of obesity in our society. Unfortunately, attempts to sustain significant weight loss by dieting and exercise are nearly always unsuccessful and none of the anti-obesity drugs currently on the market are safe to use long-term. Effective treatments for obesity are only likely to be developed once we understand more about what controls body weight regulation. An inactive lifestyle is clearly a risk factor for obesity. Spontaneous physical activity (or activity associated with daily life, as opposed to formal exercise) can play a major role in determining body weight. Recent work suggests that spontaneous physical activity is influenced not only by our environment but by our biological makeup as well (i.e. genetic and metabolic factors). The aim of this study is to investigate what some of these factors are, and whether they are responsible for altering body weight regulation in animal models of obesity. Specifically we will be looking at whether spontaneous physical activity is influenced by circulating hormones (such as leptin, oestrogen, and pancreatic polypeptide) and a messenger molecule (nitric oxide), and we will also identify genes which influence physical activity in a mouse model of obesity. By examining the genetic and metabolic basis of inactivity in obese rodent models, this project will further our understanding of how energy balance is disturbed in obesity in the hope of developing better therapies to treat obesity in the future.Read moreRead less
Endocrine And Autocrine Regulation Of Breast Cancer Cell Growth By IGF Binding Protein-3 (IGFBP-3).
Funder
National Health and Medical Research Council
Funding Amount
$497,250.00
Summary
The insulin-like growth factor (IGF) system of growth factors and their regulatory proteins is essential for normal growth, but is also involved in a number of overgrowth disorders. Some clinical studies have shown that a high level of IGF-I in the blood increases the risk of breast cancer in some women, but if the protein which carries it in the circulation, IGFBP-3, is also high, the risk is reduced. It has therefore been suggested that IGFBP-3 may be useful in the treatment of breast cancer. ....The insulin-like growth factor (IGF) system of growth factors and their regulatory proteins is essential for normal growth, but is also involved in a number of overgrowth disorders. Some clinical studies have shown that a high level of IGF-I in the blood increases the risk of breast cancer in some women, but if the protein which carries it in the circulation, IGFBP-3, is also high, the risk is reduced. It has therefore been suggested that IGFBP-3 may be useful in the treatment of breast cancer. This is supported by laboratory studies showing that IGFBP-3 can inhibit cell division and stimulate cell death in many cell types, including breast cells. However, some cells are resistant to IGFBP-3 s inhibitory effects, and in some cases IGFBP-3 may stimulate cells to grow and divide. In fact, the amount of IGFBP-3 present in breast tumours is highest in the fastest growing, most malignant tumours, suggesting that IGFBP-3 may be stimulating their growth. Our laboratory data indicates that breast cancer cells which produce a high level of IGFBP-3 grow faster as tumours than cells which produce little or no IGFBP-3. We believe that this is because IGFBP-3 interacts with another hormone system which is involved in rapid tissue growth, the EGF system, and increases its ability to stimulate breast cells to divide. These observations raise a number of important questions: how does IGFBP-3 interact with the EGF system to stimulate tumour growth; does IGFBP-3 from the blood promote the growth of EGF-sensitive tumours; and can the interaction between IGFBP-3 and the EGF system be abolished, or switched from growth stimulatory to growth inhibitory, thus inhibiting tumour growth. Answering these questions will provide important new information regarding IGFBP-3 s stimulatory and inhibitory actions, and the role of endocrine IGFBP-3 in tumour growth, and have the potential to lead to the development of novel therapies involving IGFBP-3 for the treatment of overgrowth disorders.Read moreRead less
I am a biochemist - cell biologist investigating the molecular coordination of cellular processes that regulate metabolism. My research aim is to identify and validate novel therapeutic targets - strategies that will ameliorate the metabolic complications