I am a cell-development biologist using genetic approaches in the model vertebrate zebrafish to study the regulation of myeloid blood cell development. My laboratory haematology research is in basic science and biology of haemopoiesism but is closely rel
A New BTB-ZF Family Transcription Factor Required In Development And Dysregulated In Malignant Disease
Funder
National Health and Medical Research Council
Funding Amount
$439,813.00
Summary
We are studying the function and biology of a novel gene that looks like a generegulator. We generated a zebrafish mutant with defective myeloid development, and we found this gene causes the defect. This mutant fish provides a handle on the biological function of the gene in development. This gene has the hallmarks of a transcription factor and we will study how it regulates other genes, and how it may be a target for treatment of several cancers in which expression of this gene is activated.
Identification Of Genes Important In Myeloid And Haemopoietic Development By Genetic Screening In Zebrafish
Funder
National Health and Medical Research Council
Funding Amount
$425,250.00
Summary
Zebrafish have emerged as a powerful experimental model in developmental genetics. Their favourable attributes include their reproductive biology, the optical clarity of embryos, and the accessibility of embryos for experimental procedures. Previous studies overseas have recovered over 1500 strains of zebrafish with inherited diseases due to induced mutations in about 500 genes. Many of these zebrafish have abnormalities of unexpected precision and are leading to new genes with novel specialized ....Zebrafish have emerged as a powerful experimental model in developmental genetics. Their favourable attributes include their reproductive biology, the optical clarity of embryos, and the accessibility of embryos for experimental procedures. Previous studies overseas have recovered over 1500 strains of zebrafish with inherited diseases due to induced mutations in about 500 genes. Many of these zebrafish have abnormalities of unexpected precision and are leading to new genes with novel specialized functions. About 50 mutant zebrafish strains exist in which red blood cell development is perturbed - this was easily recognized because the transparency of embryos enabled lack of blood be easily seen. Our new studies aim primarily to recover mutant zebrafish with disorders of white blood cell formation. We have identified methods to recognize failure of white blood cell formation in zebrafish, and will employ these methods to look for inherited disorders that specifically affect white blood cell development in a process called genetic screening. Fish with different sets of randomly mutated genes will be systematically screened to identify those with abnormal white blood cell development. We have tested our approach and identified several mutants affecting white blood cell development. Once these new strains of fish are identified, we will find the genetic lesion responsible for the abnormality in several of the most interesting strains by gene mapping and positional cloning. Hence, the mutant zebrafish identified in the screen will eventually lead to the discovery of new genes important in white blood cell growth and development. The fish themselves will provide insights into the causes of congenital diseases of white blood cells. Since many genes involved in early development are also important in cancer, we believe that newly identified genes will also help understand the causes of abnormal growth of white blood cells in leukaemia.Read moreRead less
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.
Haematopoiesis, Metabolic Disorders And Atherosclerosis
Funder
National Health and Medical Research Council
Funding Amount
$428,065.00
Summary
Dr. Murphy’s work is centred on examining how different diseases such as obesity, diabetes and other inflammatory conditions increase people’s risk of heart disease. He will explore how these various inflammatory diseases influence the produce increased levels of white blood cells, which is important as increased white blood cells are positively associated with disease severity. He will also explore the relationship between blood cancers, know as leukaemia and how obesity.
The Role Of Cell Cycle Control In Haemopoietic Stem Cell Fate Decisions.
Funder
National Health and Medical Research Council
Funding Amount
$390,974.00
Summary
My research has focused on understanding how the process of cell division can result in different outcomes for adult blood stem cells. I am interested in determining the role of bone and blood vessels in the regulation of blood stem cells and in the development of blood diseases (myeloprolifertive disease). I will also determine the effects of changing the cell cycle with drugs to improve transplantation of blood stem cells.