Characterization Of Novel Inhibitors Of G1-S Phase Progression In Drosophila
Funder
National Health and Medical Research Council
Funding Amount
$456,000.00
Summary
Cancer is a disease that affects 1-3 people and therefore, understanding the mechanisms by which cancer arises is of major importance to medical science. Cancers arise through the accumulation of mutations that alter normal cell proliferation control, differentiation, cell death or cell movement. Many genes involved in cancer have been identified, however, there are likely to be many more genes, that when disrupted or misexpressed can lead to cancer. We are interested in the regulation of cell p ....Cancer is a disease that affects 1-3 people and therefore, understanding the mechanisms by which cancer arises is of major importance to medical science. Cancers arise through the accumulation of mutations that alter normal cell proliferation control, differentiation, cell death or cell movement. Many genes involved in cancer have been identified, however, there are likely to be many more genes, that when disrupted or misexpressed can lead to cancer. We are interested in the regulation of cell proliferation, and have been studying this in the genetically amenable animal model system, the vinegar fly, Drosophila. A key regulator of cell proliferation in all multicellular organisms is Cyclin E, which is required to drive cells from the G1 (resting state) into S phase (where DNA replication occurs). Correct control of Cyclin E is important in limiting cell proliferation and many cancer-causing mutations result in up-regulation of this critical cell cycle regulator. We have used a genetic approach to identify novel negative regulators of Cyclin E. This proposal seeks to further clarify the mechanism by which the identified Cyclin E interactors regulate cell cycle progression. In addition, this proposal seeks to identify the genes encoding other cyclin E interactors, expected to be novel tumor suppressors. The expected outcome of this project is to elucidate novel genes and mechanisms that control cell proliferation in the context of a whole organism. Due to the conservation of cell proliferation and signalling proteins, this proposal is relevant to understanding human cancer.Read moreRead less
Type 2 diabetes causes significant health problems. The fundamental reasons underlying this disease are not fully known and will require molecular analysis of proteins critical to blood glucose control. This work aims to define a novel pathway that responds to circulating nutrients. The research will enhance our understanding of the links between diet and metabolic disease, with potential to reveal much needed therapeutic targets and/or dietary interventions for the treatment of Type 2 diabetes.
Differentiation Therapy Of Acute Myeloid Leukaemia: Combining RAR-agonists And G-CSF.
Funder
National Health and Medical Research Council
Funding Amount
$449,500.00
Summary
The application of cancer treatments that target specific molecules hold significant promise. However to apply these treatments detailed knowledge is required of the how the molecular targets function in cells. Our previous work using normal blood cells has identified two genes ( MAD1 and p27KIP1 ) that are required for the effects of one such targeted treatment that is aimed at the retinoic acid receptor alpha. We propose to test this treatment in mouse models of human leukaemia and in human le ....The application of cancer treatments that target specific molecules hold significant promise. However to apply these treatments detailed knowledge is required of the how the molecular targets function in cells. Our previous work using normal blood cells has identified two genes ( MAD1 and p27KIP1 ) that are required for the effects of one such targeted treatment that is aimed at the retinoic acid receptor alpha. We propose to test this treatment in mouse models of human leukaemia and in human leukemia cells grown in the laboratory. By deleting the genes for MAD1 and p27KIP1 we will determine if leukaemias lacking these genes fail to respond to treatments targeting the retinoic acid receptor alpha. We will also test if treatments that target retinoic acid receptors in combination with G-CSF, a protein that has previously been demonstrated to have anti-leukaemic activity, can work together to block growth of leukaemic and genetically modified cells. Together these studies will help define classes of leukamias that either will or will not respond to treatments aimed at retinoic acid receptor to better target future leukemia treatments.Read moreRead less
Regulators Of Cell Cycle As Therapeutic Drug-targets For Cortical Tubular Hyperplasia In Proteinuric Renal Disease
Funder
National Health and Medical Research Council
Funding Amount
$219,750.00
Summary
Currently in Australia, it has been estimated that approximately 60 000 people suffer from chronic kidney failure (CKF). In at least 80% of people with CKF, the kidney function will continue to worsen (due to disease progression) to the point where end-stage kidney failure (ESKF) has developed. When the latter occurs daily treatment by either dialysis or kidney transplantation is mandatory for a person to survive. At present, there are nearly 10 000 patients with ESKF who are being treated by di ....Currently in Australia, it has been estimated that approximately 60 000 people suffer from chronic kidney failure (CKF). In at least 80% of people with CKF, the kidney function will continue to worsen (due to disease progression) to the point where end-stage kidney failure (ESKF) has developed. When the latter occurs daily treatment by either dialysis or kidney transplantation is mandatory for a person to survive. At present, there are nearly 10 000 patients with ESKF who are being treated by dialysis or transplantation, in Australia. Although these treatments have allowed patients to survive, they are associated with significant and unacceptable patient morbidity and mortality. Current medical treatments to reduce the disease progression of CKF (and thereby extend the time taken to reach ESKF) are non-specific, partially effective and have a variable response. Also, these treatments are NOT known to arrest the progression of CKF. To compound the overall problem even further, the number of new patients starting chronic dialysis programmes is increasing (by 6% per year). Consequently, ESKF has been described by leading authorities as a medical catastrophe of world-wide dimensions, and research into ways to reduce-arrest the progression of CKF has been recommended as an urgent priority by the Australian Kidney Foundation. In CKF, the kidneys undergo compensatory growth which is harmful and paradoxically contributes to disease progression. The aim of this research program is to advance knowledge about the molecular mechanisms of kidney growth in CKF, with specific goals of: (i) identifying new molecular targets for drug-based manipulation of kidney growth; and (ii) to test the efficacy of experimental drugs which have an ability to alter kidney growth, and thereby reduce the progression of CKF.Read moreRead less