Studies Of Myeloid Leukaemogenesis In The Zebrafish
Funder
National Health and Medical Research Council
Funding Amount
$171,827.00
Summary
This project aims to investigate the causes of white blood cell cancer, or leukaemia, at the molecular level, using a novel approach in zebrafish. Zebrafish provide a powerful experimental model for developmental genetics, largely due to the visual and technical accessibility of embryos for experimentation. We plan to introduce a fluorescent molecular tag into the white blood cells in order to directly visualise them. We will then predispose these fish to leukaemia and screen for mutants with en ....This project aims to investigate the causes of white blood cell cancer, or leukaemia, at the molecular level, using a novel approach in zebrafish. Zebrafish provide a powerful experimental model for developmental genetics, largely due to the visual and technical accessibility of embryos for experimentation. We plan to introduce a fluorescent molecular tag into the white blood cells in order to directly visualise them. We will then predispose these fish to leukaemia and screen for mutants with enhanced or suppressed leukaemia. We anticipate that the mutants will allow new genes involved in the development of leukaemia to be identified.Read moreRead less
Regulation Of PtdIns(3,4)P2 Signalling By Inositol Polyphosphate 4-phosphatase-1
Funder
National Health and Medical Research Council
Funding Amount
$557,939.00
Summary
Normally cells only divide when they receive a stimulus such as from a hormone or growth factor. One of the signaling pathways which responds to growth factor stimulation is the PI3-kinase pathway. This pathway has been implicated in many different human cancers which occur when cells divide uncontrollably and invade into the surrounding tissues. We have idenitified a novel enzyme called the inositol polyphosphate 4-phosphatase that appears to regulate cell proliferation and differentiation.
The Role Of The Inositol Polyphosphate 4-phosphatase In Cellular Signalling
Funder
National Health and Medical Research Council
Funding Amount
$454,500.00
Summary
Cells respond to hormones, stress, growth factors and other environmental stimuli resulting in secretion, cell growth, cell division and other specialized functions. These cellular responses are dependent on the generation of intracellular signals that send messages either to the nucleus, the cytoskeleton or membrane compartments and thereby elicit a specific response. A specific subset of signalling molecules that are localized on membrane compartments are called phosphoinositides. We plan to i ....Cells respond to hormones, stress, growth factors and other environmental stimuli resulting in secretion, cell growth, cell division and other specialized functions. These cellular responses are dependent on the generation of intracellular signals that send messages either to the nucleus, the cytoskeleton or membrane compartments and thereby elicit a specific response. A specific subset of signalling molecules that are localized on membrane compartments are called phosphoinositides. We plan to investigate the role of a specific lipid called PtdIns(3,4)P2 that recruits signalling proteins to specific cellular membranes including the inner wall of the plasma membrane and vesicles found within the cell. We have identified and are currently characterizing a novel enzyme called the inositol polyphosphate 4-phosphatase that terminates the signals generated by PtdIns(3,4)P2. We are characterizing mice which lack this enzyme. 4-phosphatase deficient mice demonstrate significant abnormalities in the brain and bone marrow. These mice appear unable to make circulating platelets, small anucleate cells which are vital in preventing bleeding. We will determine how the 4-phosphatase functions in regulating platelet production, by examining the bone marrow and blood of these mice. These studies are significant as platelet production is essential for prevention of blood loss following trauma and also is of vital importance in conditions associated with blood clotting including heart attack and stroke. Secondly we have identified a related enzyme to the 4-phosphatase designated P-Rex-1 which is highly expressed in brain and nerve cells. This proposal aims to determine if P-Rex-1 promotes nerve development.Read moreRead less
An Analysis Of The Lyn Tyrosine Kinase In The Regulation Of Hematopoiesis And Tumourigenesis.
Funder
National Health and Medical Research Council
Funding Amount
$381,000.00
Summary
The Lyn kinase is an enzyme that is involved in relaying information across the cell membrane. It is a member of a family of genes that have been implicated in tumour development. Lyn is expressed in blood cells and it is involved in a variety of immunological responses. To further our understanding of the role of this enzyme in the context of the whole animal, we have generated two strains of mice, one that is unable to make Lyn protein (Lyn-deficient mice) and one that expresses an activated f ....The Lyn kinase is an enzyme that is involved in relaying information across the cell membrane. It is a member of a family of genes that have been implicated in tumour development. Lyn is expressed in blood cells and it is involved in a variety of immunological responses. To further our understanding of the role of this enzyme in the context of the whole animal, we have generated two strains of mice, one that is unable to make Lyn protein (Lyn-deficient mice) and one that expresses an activated form of the Lyn enzyme (Lyn-up mice). Our previous studies have shown that Lyn-deficient mice have enhanced blood cell formation (hematopoiesis) and develop white blood cell tumours with age, whereas Lyn-up mice show no propensity to develop tumours. In this study we will examine in detail the role that Lyn plays in blood cell formation and tumourigenesis, and we will identify the pathways that underlie the phenotypes in Lyn-deficient mice. On completion of these studies we will have catalogued the molecules and pathways regulated by Lyn, and have an understanding of how Lyn functions in regulating development of specific populations of blood cells, and in suppressing or promoting tumour development.Read moreRead less