Adiponectin - Multimerization, Secretion And Action
Funder
National Health and Medical Research Council
Funding Amount
$478,844.00
Summary
Adiponectin is a hormone produced by fat tissue. It functions to control blood glucose levels and acts to prevent damage to blood vessels associated with heart disease and stroke. Adiponectin levels in the blood are low in subjects with obesity, diabetes and heart disease, and in animals with these conditions, additional adiponectin is of benefit. It has recently been recognised that adiponectin is produced in different forms - a low weight form made up of a small number of adiponectin molecules ....Adiponectin is a hormone produced by fat tissue. It functions to control blood glucose levels and acts to prevent damage to blood vessels associated with heart disease and stroke. Adiponectin levels in the blood are low in subjects with obesity, diabetes and heart disease, and in animals with these conditions, additional adiponectin is of benefit. It has recently been recognised that adiponectin is produced in different forms - a low weight form made up of a small number of adiponectin molecules and a higher weight form (HMW adiponectin) made up of large numbers of adiponectin molecules complexed together. We and others have shown that the HMW adiponectin is particularly beneficial. This projects aims to understand the processes regulating the production of differing types of adiponectin by fat cells. It will also examine how the different types of adiponectin have their effects in different tissues such as liver and muscle. The information gained will increase our understanding of how illnesses such as diabetes are associated with obesity. It may also lead to the development of treatments aimed at increasing adiponectin levels - particulalry HMW adiponectin - which may be of benefit in patients with diabetes and cardiovascular disease.Read moreRead less
Roles Of The Nuclear Growth Hormone Receptor In Cell Proliferation And Survival
Funder
National Health and Medical Research Council
Funding Amount
$429,387.00
Summary
We have discovered that the cell surface receptor for growth hormone travels to the cell nucleus in dividing cells, including cancer cells. Given the role of growth hormone in promoting growth postnatally, we seek to uncover how the nuclear receptor promotes proliferation directly, and by gene splicing. We have identified strong candidates for its direct actions through proteomics, and a DNA binding site for the receptor. Here we will investigate its role in proliferation, gene splicing and DNA ....We have discovered that the cell surface receptor for growth hormone travels to the cell nucleus in dividing cells, including cancer cells. Given the role of growth hormone in promoting growth postnatally, we seek to uncover how the nuclear receptor promotes proliferation directly, and by gene splicing. We have identified strong candidates for its direct actions through proteomics, and a DNA binding site for the receptor. Here we will investigate its role in proliferation, gene splicing and DNA strand break repair after cell irradiation.Read moreRead less
Molecular Determinants Of Amino Acid-dependent Signalling By The Calcium-sensing Receptor
Funder
National Health and Medical Research Council
Funding Amount
$566,035.00
Summary
Amino acids are the building blocks of proteins and an alternative energy source to carbohydrate and fat. Proteins are major structural components of our bodies. They also fulfil an amazing diversity of cellular and bodily functions acting, for example, as enzymes (biological catalysts), receptors, molecular chaperones and biological machines. Thus, amino acids are key nutrients and the human body has developed mechanisms for tightly regulating cellular responses depending upon their levels in b ....Amino acids are the building blocks of proteins and an alternative energy source to carbohydrate and fat. Proteins are major structural components of our bodies. They also fulfil an amazing diversity of cellular and bodily functions acting, for example, as enzymes (biological catalysts), receptors, molecular chaperones and biological machines. Thus, amino acids are key nutrients and the human body has developed mechanisms for tightly regulating cellular responses depending upon their levels in blood. Identifying amino acid sensing molecules and identifying the mechanisms they use to control cellular responses is thus a key issue in human biology. The applicant identified the calcium-sensing receptor as an amino acid sensor and has shown that this receptor provides a means by which fluctuations in amino acid levels regulate the secretion of the key calcium-regulating hormone, PTH. In the current proposal, the mechanisms that link amino acid activation of the calcium-sensing receptor to its key cellular responses will be determined.Read moreRead less