Cancer is the result of multiple genetic errors, involving both the overactivity of growth-stimulating oncogenes and the loss of tumour suppressor genes. The identification of the genes in both of these categories is important if we are to understand and intervene in the disease. Tumour suppressors are the more difficult to identify, precisely because they are lost in cancer cells. Normally the task is extremely time consuming, tedious and expensive. We have developed a system which will provide ....Cancer is the result of multiple genetic errors, involving both the overactivity of growth-stimulating oncogenes and the loss of tumour suppressor genes. The identification of the genes in both of these categories is important if we are to understand and intervene in the disease. Tumour suppressors are the more difficult to identify, precisely because they are lost in cancer cells. Normally the task is extremely time consuming, tedious and expensive. We have developed a system which will provide a short-cut to the cloning of one such gene. We have started with the mouse version, which is lost in leukemic cells. We have mapped the gene to within a very small chromosomal region, and we have identified a biological effect which correlates with loss of the gene. Our next step is to combine these two approaches to clone the gene. Because these genes are always highly conserved between species, we will be able to quickly clone the corresponding human gene, the loss of which is very likely to be important in cancer of various types.Read moreRead less
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.
Acute Lymphoblastic Leukemia And The Bone Marrow Microenvironment
Funder
National Health and Medical Research Council
Funding Amount
$420,872.00
Summary
This research aims to identify new drugs for the treatment of childhood and adult acute lymphoblastic leukemia (ALL). We have identified drugs that interfere with interactions between the bone marrow and leukemic cells and hypothesise that these will increase the potency of currently used chemotherapy. We will test these agents in animal models of human leukemia. By analysing the effects of these new drugs we will also understand how we can further improve treatments.
We discovered, characterised and commercialised Macrophage inhibitory cytokine-1 (MIC-1/GDF15) for human therapy. Its blood level predicts death from cancer, heart attack/stroke and other diseases. This study will add important information for understandg the actions of this important protein