Molecular Pathways Mediating Quiescence And Resistance In Leukaemia Stem Cells In Acute Myeloid Leukaemia.
Funder
National Health and Medical Research Council
Funding Amount
$100,381.00
Summary
Acute myeloid leukaemia (AML) is a devastating cancer of the blood and bone marrow which is rapidly fatal unless effectively treated with chemotherapy. AML is caused by genetic events that alter normal blood stem cells to give them a growth and survival advantage and also may confer resistance to chemotherapy in some cases. We will evaluate and target the mechanism of this resistance in laboratory models. This information can then be used to design new treatments to improve outcomes in AML.
Characterisation Of CBF Acute Myeloid Leukaemia By MicroRNA Profiling
Funder
National Health and Medical Research Council
Funding Amount
$118,956.00
Summary
Recent studies have demonstrated the existence of small pieces of previously undescribed genetic material, known as microRNAs (miRNAs), which are thought to have critical functions across various biological processes and regulatory pathways in cells. This project aims to examine the role of these miRNAs in the development of abnormal cellular proliferation that leads to leukaemia, by examining the expression of all known miRNAs in the abnormal cells of our patients with leukaemia.
The Evolution Of Acute Myeloid Leukaemia By In Situ Transformation Of Haematopoietic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$646,966.00
Summary
Acute myeloid leukaemia (AML) is a devastating form of blood cancer that can affect people of any age. The survival of patients with AML is poor and this is because the disease usually comes back after chemotherapy (this is called relapse). Fewer than half of all patients with AML can be cured. We have recently developed a new, and improved, model of AML in the lab, which we will use to test an exciting new treatment for patients with AML.
Klf5 Function In Normal And Leukaemic Haemopoiesis
Funder
National Health and Medical Research Council
Funding Amount
$609,924.00
Summary
Acute Myeloid Leukaemia (AML) is a devastating disease that affects both children and adults. New treatments that target particular genetic abnormalities are urgently needed. We have identified KLF5 as a gene that may control blood cell maturation. In AML patient samples we have found alterations of the KLF5 gene that may suppress its activity and contribute to the formation of leukaemia. These leukaemias may be good candidates for treatment with new drugs called methyltransferase inhibitors.
Use Of Retroviral Expression Libraries To Characterise Mechanisms Of Drug Resistance In Leukaemia.
Funder
National Health and Medical Research Council
Funding Amount
$362,545.00
Summary
At present, treatment of leukaemia is based either on established chemotherapeutic drug treatment or newly identified inhibitor drugs currently being tested as part of clinical trials. Both these treatments are known to induce or select for resistance to the drugs in some cases. Resistance usually reduces the success rate of any further treatment with the same or similar drugs. To discover possible ways of overcoming drug resistance it is important to understand the mechanisms that are responsib ....At present, treatment of leukaemia is based either on established chemotherapeutic drug treatment or newly identified inhibitor drugs currently being tested as part of clinical trials. Both these treatments are known to induce or select for resistance to the drugs in some cases. Resistance usually reduces the success rate of any further treatment with the same or similar drugs. To discover possible ways of overcoming drug resistance it is important to understand the mechanisms that are responsible. To date a number of mechanisms that cause resistance are known, but there are still unidentified mechanisms that are associated with drug resistance. The aim of our work is to use a new method to identify unknown drug resistance mechanisms in leukaemia. Once a mechanism is identified, we will determine its relevance in leukaemia by screening a number of patients that have shown resistance to treatment. If identified as a common mechanism of resistance in leukaemic patients, we will test possible agents able to prevent drug resistance that could be used in conjunction with drug during treatment, and to screen new drugs for susceptibility to resistance mechanisms. Diagnostic tests to detect the presence of the known resistance mechanisms prior to treatment could be used in selection of the most appropriate drug combinations for individual patients. Some of the known drug resistance mechanisms that occur in leukaemia are also operative in other forms of cancer and the project is of general relevance to cancer chemotherapy.Read moreRead less
Investigating The Gene And Gene Expression Differences In The Cells That Drive Leukemia Development And Relapse In Children With AML
Funder
National Health and Medical Research Council
Funding Amount
$388,612.00
Summary
Current treatments for AML are initially effective at killing the majority of leukemic cells, but the disease often comes back (relapses) due to rare cells that escape treatment and can regenerate the cancer (called leukemic stem cells or LSC for short). This project aims to determine if an individual patient has one, or many kinds of LSC and which kind of LSC is most likely to cause relapse. We believe that this knowledge will lead to new treatments that can target the cells that cause relapse.
Dissecting The Role Of The IL-3 Receptor Alpha Subunit And Beta-catenin In Acute Myeloid Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$583,312.00
Summary
Leukaemia is a devastating form of blood cancer affecting both young and old. We aim to understand the mechanisms of uncontrolled cell growth associated with acute myeloid leukaemia. We focus on the role of key growth regulators that are abnormally active in the critical leukaemia stem cells. Understanding the biological and molecular properties of these cells is of considerable importance for development of the next generation of leukaemia therapies.
Dissecting FLT3 Signalling In Acute Myeloid Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$498,328.00
Summary
Each year approximately 6000 Australian adults and children are diagnosed with leukaemia, lymphoma or a related blood disorder, accounting for about 15% of all cancers. Acute Myeloid Leukaemia (AML) is the most common form of leukaemia in adults resulting from an accumulation of immature myeloid cells in the bone marrow and peripheral blood as a result of sustained, abnormal cell growth and survival together with a block in normal blood cell formation. There is still a major research effort aime ....Each year approximately 6000 Australian adults and children are diagnosed with leukaemia, lymphoma or a related blood disorder, accounting for about 15% of all cancers. Acute Myeloid Leukaemia (AML) is the most common form of leukaemia in adults resulting from an accumulation of immature myeloid cells in the bone marrow and peripheral blood as a result of sustained, abnormal cell growth and survival together with a block in normal blood cell formation. There is still a major research effort aimed at understanding the mechanisms that lead to AML formation and it is clear that multiple AML oncogenes and tumour suppressors remain to be identified. Identification of further events involved in AML is important as it will provide avenues for more specific and less toxic treatments. These are needed because current success rates for AML remain relatively poor. It is critical that research into the understanding of the pathways and events involved in AML keeps pace with the rapid development of new approaches for therapeutic agents. Together this will greatly increase the scope for therapeutic intervention over the next decade. In this application we investigate the role of a new molecular pathway in AML. Our studies have identified a gene of particular interest that we propose normally prevents AML formation and therefore is frequently turned off by the cellular changes that lead to AML. We propose that silencing of this gene is particularly important in those AML cases which have mutations in the cell surface receptor FLT3 (about 30% of AML cases). We will use a number of molecular and cell biology approaches to manipulate this gene in mouse cell lines, normal mouse cells and human AML cells. A better understanding of the role of this gene and the associated pathway involving FLT3 may generate new leads for therapeutic approaches.Read moreRead less
The Biology And Clinical Manifestations Of Chronic Myeloid Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$440,583.00
Summary
I am a haematologist studying the biology and clinical manifestations of chronic myeloid leukaemia with particular reference to the dynamics of response to kinase inhibitor therapy and the causes and clinical management of suboptimal response and drug res
Molecular Analysis Of Myelodysplasia In The Nup98HoxD13 Mouse Model
Funder
National Health and Medical Research Council
Funding Amount
$351,502.00
Summary
Myelodysplastic syndrome is a preleukemic condition which is poorly understood and occuring at an increasing frequency. Unfortunately no targeted therapy exists. Two features of the disease are abnormal gene expression and abnormal cell death. We have a uniquely accurate model of this disease, and we plan to use it to investigate these two phenomena which will lead to greater understanding of the disease and new molecular targets for therapeutic agents to be developed and tested in our model.