LKB1 - The Link Between Obesity And Breast Cancer In Postmenopausal Women
Funder
National Health and Medical Research Council
Funding Amount
$292,216.00
Summary
Obesity is a worldwide epidemic affecting 60% of Australians and is linked to many diseases including breast cancer. Changes in sex hormone levels during menopause may cause these diseases. The focus of this proposal is to determine the role of the sex hormones to regulate a protein (LKB1) involved in both fat metabolism and cancer. This research will benefit the ageing population by making a contribution toward generating therapeutics to combat obesity and breast cancer.
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
Insulin-like Growth Factor Binding Protein-3 (IGFBP-3) Sensitivity And Signalling In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$414,343.00
Summary
The growth of all tissues in the body depends on many growth factors, hormones and other proteins which work together to control cell division. Some of these factors stimulate the division of the cells which make up the body tissues, and some inhibit it, so that a balance of these stimulators and inhibitors ensures that tissues do not grow too fast, or too large. The development of breast cancer and the growth of breast tumours is thought to be due to uncontrolled or faulty actions of the protei ....The growth of all tissues in the body depends on many growth factors, hormones and other proteins which work together to control cell division. Some of these factors stimulate the division of the cells which make up the body tissues, and some inhibit it, so that a balance of these stimulators and inhibitors ensures that tissues do not grow too fast, or too large. The development of breast cancer and the growth of breast tumours is thought to be due to uncontrolled or faulty actions of the proteins and hormones which regulate the way breast cells multiply. One protein which normally regulates the division of breast cells is IGFBP-3. We have found that in some breast cancer cells, IGFBP-3 is no longer able to inhibit cell division, and this may lead to tumour growth and invasion of other tissues. We are interested in finding out how IGFBP-3 normally controls breast cell proliferation, and why some breast cancers are resistant to IGFBP-3. To do this, we will use normal breast cells in culture to examine how IGFBP-3 interacts with other cellular factors to prevent cell division. We will then look at whether the breast cancer cells have changed so that they are no longer able to recognise IGFBP-3 as an inhibitory protein. This may be because of changes in the way IGFBP-3 binds to the breast cancer cell, or because of changes in the way it interacts with other proteins in the cell. Because IGFBP-3 is made by normal and breast cancer cells, we will also study whether the IGFBP-3 being made by breast cancer cells is normal, or if it changed in some way that makes it inactive. By understanding why some breast cancers are not inhibited by IGFBP-3, we will be able to design new and better methods of preventing, detecting and treating the growth of all breast tumours.Read moreRead less