The Regulation Of 14-3-3 Protein Function By Post-translational Modification
Funder
National Health and Medical Research Council
Funding Amount
$212,036.00
Summary
The cells of our body have control mechanisms that prevent them from growing abnormally. However, when cells become cancerous they escape the normal checks and controls and are able to survive, divide and grow uncontrollably. In the last decade the molecular basis of several of the control mechanisms involved in preventing cancerous growth have been uncovered. However, our understanding is far from complete and recent research reports suggest that we have thus far overlooked a whole level of reg ....The cells of our body have control mechanisms that prevent them from growing abnormally. However, when cells become cancerous they escape the normal checks and controls and are able to survive, divide and grow uncontrollably. In the last decade the molecular basis of several of the control mechanisms involved in preventing cancerous growth have been uncovered. However, our understanding is far from complete and recent research reports suggest that we have thus far overlooked a whole level of regulation of cell growth control. Signals that instruct a normal cell to divide are propogated by pathways of interacting molecules within the cell. These pathways are regulated by switch mechanisms that either modify the interacting molecules, thereby inactivating their activity or by controlling when and where the molecules are allowed to interact. This spatial and temporal control mechanism is mediated by a family of specialised molecules, called 14-3-3 proteins. Recent research indicates that the function of these 14-3-3 proteins is also tightly controlled, although as yet we don't understand how. This research proposal attempts to discover the molecular mechanism of regulation of 14-3-3 function. An understanding of this process may provide new molecular targets for the development of therapeutics against cancer.Read moreRead less
Regulation Of 14-3-3 Monomerisation Controls Cell Life/death Fate
Funder
National Health and Medical Research Council
Funding Amount
$524,770.00
Summary
14-3-3 proteins are becoming increasingly recognised as major multifunctional proteins that control key aspects of normal and pathological processes. Although initially viewed as inert components of signalling, we have now recognised for the first time that these are very dynamic proteins that can be regulated. Our main aim is to understand the regulatory mechanisms controlling the different dynamic forms of 14-3-3 and how each form in turn controls the process of life and death.
Evaluation Of Multidisciplinary Care Plans For Patients With Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$83,500.00
Summary
Care planning for patients with chronic illnesses and complex needs is a major part of the Commonwealth Enhanced Primary Care package. This initiative, announced in late 1999, provides access to Medicare Benefits Schedule (MBS) items to remunerate general practitioners, involved in developing multidisciplinary care plans in cooperation with other health care providers. An issue of importance, and the one that this project investigates, is whether disease specific care is addressed in care plans ....Care planning for patients with chronic illnesses and complex needs is a major part of the Commonwealth Enhanced Primary Care package. This initiative, announced in late 1999, provides access to Medicare Benefits Schedule (MBS) items to remunerate general practitioners, involved in developing multidisciplinary care plans in cooperation with other health care providers. An issue of importance, and the one that this project investigates, is whether disease specific care is addressed in care plans and whether the care planning process is associated with improved provision and outcomes of care for a specific chronic illness. The chronic illness that has been chosen for this research project is diabetes because of its prevalence in the community, importance in general practice and because there are accepted standards of process and outcomes of care against which diabetes care contained in EPC care plans can be bench marked. Diabetes is estimated to affect 7.5% of the adult Australian population with more than 85% of those affected having type 2 or mature onset diabetes. Increasingly care of type 2 diabetes is provided in primary care under share care arrangements with specialist diabetes services and in a multidisciplinary team approach involving the patient and their carer as well as relevant health professionals. A recent review has shown that there is a lack of evidence on whether multidisciplinary care is associated with improved process and outcomes of diabetes care. The project will involve 50 general practitioners and 200 of their patients with diabetes in South West Sydney. The design of the project involves audit of the care plans to examine the extent and quality of the diabetes care contained in comparison to accepted benchmarks. The project will also audit the patients' medical records for the year of care before and after the care plan. This care will be compared to published guidelines for process of care and goals for outcomes.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