In 2011 there were over 360 million people with type 1 and type 2 diabetes worldwide, who will require insulin treatment. There is an urgent need for insulin analogues that provide effective control of blood glucose to avoid unwanted hypoglycemic or hyperglycemic events. We have developed two novel insulin analogues with unique properties and aim to understand their mechanism of action. This knowledge will present new opportunities for improved insulin mimetics for diabetes treatment.
Understanding Ligand Binding Within The Insulin-like Growth Factor Family With Direct Application To Cancer Therapeutic Design
Funder
National Health and Medical Research Council
Funding Amount
$861,235.00
Summary
Cancer is a devastating disease and there is an imperative to develop new therapeutics. The so-called insulin-like growth factors are molecules that play a key role in the initiation and progression of cancer. Here we seek to understand how these molecules interact with cells and to develop drugs that might block their action.
Targeting The Insulin And Insulin-like Growth Factor Receptors In Cancer, Diabetes And Alzheimer's Disease
Funder
National Health and Medical Research Council
Funding Amount
$993,251.00
Summary
Diabetes, cancer and Alzheimer's disease are three major diseases facing Australia. This Project will investigate a common point-of-focus of these diseases, namely the interaction of insulin and the insulin-like growth factors with their receptor molecules on the cell surface. It will use recent breakthrough findings by the Chief Investigators to develop new therapeutic approaches for these diseases that could function by targeting these interactions.
Insulin-like Growth Factor Binding Protein-2 Is A Crucial Activator Of Aggressive Behaviour In Cancer Cells
Funder
National Health and Medical Research Council
Funding Amount
$612,885.00
Summary
The insulin-like growth factor (IGF) system, required for normal development and adult life, is often altered in many diseases including cancer. Key regulators of the IGF system are the IGF binding protein (IGFBP) of which IGFBP-2 is the 2nd most abundant. IGFBP-2 may enhance or inhibit the IGFs, but the mechanisms are not clear. This proposal aims to dissect IGFBP-2 action with the ultimate goal to provide knowledge for the development of targeted therapeutic modulators of IGFBP-2 activity.
Structural Events In Insulin And IGF Signalling - A Nanodisc Approach To A Problem In Cancer, Diabetes And Alzheimer's Disease
Funder
National Health and Medical Research Council
Funding Amount
$752,403.00
Summary
Insulin and its insulin-like growth factors play a major role in three major disease states facing ageing Australians—diabetes, cancer and Alzheimer's disease. We aim to understand how these proteins send messages into cells via their so-called receptors. We will isolate the receptor molecules from cells and then image them in an advanced electron microscope to produce three-dimensional images. Our findings will have implications for the design of therapeutics targeting the above three diseases.
Determinants Of Insulin-like Growth Factor (IGF) Binding And Biological Actions Of IGF Binding Protein-6
Funder
National Health and Medical Research Council
Funding Amount
$399,750.00
Summary
Proteins are complex structures usually consisting of a number of distinct regions. Each of these regions may serve different roles. Insulin-like growth factors (IGFs) are important proteins involved in regulating the growth and other properties of cells. The actions of IGFs are in turn regulated by a family of binding proteins (IGFBPs). The aim of this project is to determine the range of actions of one of these IGFBPs and which parts of this IGFBP are involved in these actions. This may lead t ....Proteins are complex structures usually consisting of a number of distinct regions. Each of these regions may serve different roles. Insulin-like growth factors (IGFs) are important proteins involved in regulating the growth and other properties of cells. The actions of IGFs are in turn regulated by a family of binding proteins (IGFBPs). The aim of this project is to determine the range of actions of one of these IGFBPs and which parts of this IGFBP are involved in these actions. This may lead to new treatments for diseases in which cell growth is disturbed e.g. cancer and diabetes.Read moreRead less
Pathways Involved In The Insulin-like Growth Factor (IGF)-independent Actions Of IGF Binding Protein-6
Funder
National Health and Medical Research Council
Funding Amount
$550,725.00
Summary
Insulin-like growth factors (IGFs) are important proteins that regulate growth. When not regulated properly, diseases such as cancer can occur. A family of IGF binding proteins regulates IGFs. IGFBPs may inhibit IGFs and we have shown that one of them, IGFBP-6, decreases growth of some experimental cancers. As well as regulating IGFs, some IGFBPs alter cell behaviour independently of IGFs, and we found that IGFBP-6 stimulates cell movement in this way. We will now determine how this happens.
MECHANISMS OF ABNORMAL EXPRESSION OF THE IGF2 GENE IN DISORDERS AFFECTING FOETAL GROWTH
Funder
National Health and Medical Research Council
Funding Amount
$560,434.00
Summary
The IGF2 gene is crucial for foetal growth. Only the copy inherited from the father is active, a phenomenon named parental imprinting. In some children with foetal overgrowth or growth retardation, the deregulation of imprinting of the IGF2 gene during the first days of foetal development will influence subsequent growth and will also have major implications in post-natal and adult life. We will investigate the mechanisms resulting in abnormal imprinting of the IGF2 early in development.
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