AKR1C3 As A Potential Biomarker For Sensitivity Of T-lineage Acute Lymphoblastic Leukaemia To The Pre-prodrug PR-104
Funder
National Health and Medical Research Council
Funding Amount
$327,797.00
Summary
Multiagent chemotherapy is the most effective modality for the treatment of childhood ALL, the most common paediatric malignancy. Despite dramatic improvements in survival over the past 40 years, relapsed ALL remains one of the most common causes of death from disease in children. Therefore, innovative strategies are needed to benefit those children who respond poorly to established therapy. This application will test a novel therapy for a very aggressive subtype of childhood leukaemia.
Does CD123 Provide A Biological Advantage To Leukaemia Stem Cells?
Funder
National Health and Medical Research Council
Funding Amount
$647,637.00
Summary
Leukaemia is a devastating form of blood cancer affecting both young and old. We need to understand the diseased stem cell to eradicate this disease. Current therapy is poorly tolerated and the majority of patients ultimately die at relapse. We intend to investigate how we can make the cells more susceptible to therapy by understanding their biology.
Interleukin-3 Receptor Signaling Is A Driver Of Myeloid Leukaemia And A Significant Therapeutic Target
Funder
National Health and Medical Research Council
Funding Amount
$601,966.00
Summary
Acute Myeloid Leukaemia (AML) is an aggressive blood cancer. There are many types of AML, but overall, less than half of those with AML are cured. This project evaluates how certain molecules on the surfaces of leukaemic cells keep those cells alive and growing. We are also testing new ways to block these molecules and so provide new therapies for this cancer.
Targeting FLT3 Kinase Activity To Treat Haematopoietic Neoplasms
Funder
National Health and Medical Research Council
Funding Amount
$673,045.00
Summary
Most leukaemias are incurable so it is important to find new treatments. For this to occur it is essential that the mutated genes that cause leukaemia are identified. We have generated a mouse with a mutation in a gene called c-Cbl that promotes the activation a protein called FLT3 that is involved in the development of many types of leukaemias. By treating mutant mice a drug that specifically suppresses the function of FLT3 we intend to identify the most effective treatments for human leukaemia ....Most leukaemias are incurable so it is important to find new treatments. For this to occur it is essential that the mutated genes that cause leukaemia are identified. We have generated a mouse with a mutation in a gene called c-Cbl that promotes the activation a protein called FLT3 that is involved in the development of many types of leukaemias. By treating mutant mice a drug that specifically suppresses the function of FLT3 we intend to identify the most effective treatments for human leukaemias associated with activated forms of FLT3.Read moreRead less
Dual Inhibition Of Independent Cell Survival Pathways As A New Approach For Targeting Leukemic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$562,742.00
Summary
While most leukemia patients initially respond well to chemotherapy, >60% die because the disease returns as a result of the survival of leukaemia cells following treatment. We have shown that targetting two enzymes, PI3K and Cdk9, with a drug called PIK75 potently and specifically kills leukemia cells by blocking their survival. We now seek to examine the therapeutic potential of our discovery with a view toward developing new targetted therapies in the future.
Cells have the ability to commit suicide in a process called apoptosis. Developing new treatments and drugs that harness the ability of cancer cells to commit suicide (undergo apoptosis) would represent a new and potentially valuable therapeutic approach. We have identified a number of previously unrecognized ways of triggering apoptosis in cancer cells of the blood (leukemias). We propose to use our approaches to find more effective ways of treating cancers in the future.
While most leukemia patients initially respond well to chemotherapy, >70% die because the disease returns as a result of the survival of leukaemia cells following treatment. We seek to block the switch mechanisms within leukemic cells that allow them to survive current drug therapies. We now seek to examine the therapeutic potential of our discovery with a view toward developing new targetted therapies in the future.
RNA Polymerase I: A Novel Target In The Treatment Of MYC Driven Malignancies
Funder
National Health and Medical Research Council
Funding Amount
$605,963.00
Summary
Synthesis of ribosomes, the cellular protein synthetic machinery, is dysregulated during cancer leading to the hypothesis that it may be causative in the malignant process. This application will test this hypothesis using novel inhibitors or ribosome biogenesis in a mouse genetic model termed E�-MYC that faithfully that replicates human B-cell lymphoma. These studies will uncover novel mechanisms in malignant transformation and identify new therapeutics in the treatment of human cancer.
The Role Of ILK In Hedgehog Signaling And Medulloblastoma.
Funder
National Health and Medical Research Council
Funding Amount
$452,248.00
Summary
Molecular signaling pathways regulate normal embryo development, and deregulated signaling by these pathways causes many cancers. Hedgehog (Hh) is a signalling pathway commonly activated by mutations in specific genes to cause cancer, including medulloblastoma, the most common brain tumour of childhood. We have discovered novel protein interactions in the Hh pathway, and will use animal models of Hh-dependent medulloblastoma to investigate new anti-cancer drugs targetting these proteins.