Characterization Of Novel Inhibitors Of G1-S Phase Progression In Drosophila
Funder
National Health and Medical Research Council
Funding Amount
$456,000.00
Summary
Cancer is a disease that affects 1-3 people and therefore, understanding the mechanisms by which cancer arises is of major importance to medical science. Cancers arise through the accumulation of mutations that alter normal cell proliferation control, differentiation, cell death or cell movement. Many genes involved in cancer have been identified, however, there are likely to be many more genes, that when disrupted or misexpressed can lead to cancer. We are interested in the regulation of cell p ....Cancer is a disease that affects 1-3 people and therefore, understanding the mechanisms by which cancer arises is of major importance to medical science. Cancers arise through the accumulation of mutations that alter normal cell proliferation control, differentiation, cell death or cell movement. Many genes involved in cancer have been identified, however, there are likely to be many more genes, that when disrupted or misexpressed can lead to cancer. We are interested in the regulation of cell proliferation, and have been studying this in the genetically amenable animal model system, the vinegar fly, Drosophila. A key regulator of cell proliferation in all multicellular organisms is Cyclin E, which is required to drive cells from the G1 (resting state) into S phase (where DNA replication occurs). Correct control of Cyclin E is important in limiting cell proliferation and many cancer-causing mutations result in up-regulation of this critical cell cycle regulator. We have used a genetic approach to identify novel negative regulators of Cyclin E. This proposal seeks to further clarify the mechanism by which the identified Cyclin E interactors regulate cell cycle progression. In addition, this proposal seeks to identify the genes encoding other cyclin E interactors, expected to be novel tumor suppressors. The expected outcome of this project is to elucidate novel genes and mechanisms that control cell proliferation in the context of a whole organism. Due to the conservation of cell proliferation and signalling proteins, this proposal is relevant to understanding human cancer.Read moreRead less
Regulation Of Cell Proliferation By The Actin Cytoskeleton
Funder
National Health and Medical Research Council
Funding Amount
$607,795.00
Summary
The architecture of cells defines both their shape and function. It has been known for a long time that cell architecture controls the growth of cells and in particular their capacity to proliferate. We have identified part of the architectural system which controls this process. In this project we will establish how this works and its role in the body. This research will test whether this part of the cell�s architecture is a suitable drug target for the treatment of disorders in cell growth.
Characterising The Mechanisms That Control Blood Cell Development
Funder
National Health and Medical Research Council
Funding Amount
$335,616.00
Summary
Hematopoiesis is a tightly regulated process that provides the body with a constant supply of all the cells of the blood system. My studies aim to characterize the molecular mechanisms that regulate the expansion and differentiation of hematopoietic stem cells (HSCs) into each cell lineage. These studies will be key to the effective use of cellular transplantation therapeutic strategies and aim to provide a greater understanding of the mechanisms that underpin proliferative disorders such as can ....Hematopoiesis is a tightly regulated process that provides the body with a constant supply of all the cells of the blood system. My studies aim to characterize the molecular mechanisms that regulate the expansion and differentiation of hematopoietic stem cells (HSCs) into each cell lineage. These studies will be key to the effective use of cellular transplantation therapeutic strategies and aim to provide a greater understanding of the mechanisms that underpin proliferative disorders such as cancer.Read moreRead less
Regulation Of The Drosophila C-Myc Homologue In Stem Cell Growth And Division.
Funder
National Health and Medical Research Council
Funding Amount
$613,397.00
Summary
The mechanisms controlling stem cell growth and division require elucidation if we are to use stem cells in regenerative medicine and find cancer treatments. Due to experimental limitations such mechanisms are largely unknown in humans. We aim to use the vinegar fly as a model system to understand the importance of microenvironment to cancer gene control in stem cells. We will identify the secreted signals, from the neighbouring cells, required to control cancer initiation in stem cells.
Centrosome Overduplication Contributes To Tumorigenesis
Funder
National Health and Medical Research Council
Funding Amount
$495,010.00
Summary
Cancer can be simplistically thought of as a disease of cell growth and division. In order to improve current treatment regimes and identify new ones, the underlying mechanisms controlling cell proliferation need to be fully understood. By defining these regulatory mechanisms, targets for current chemotherapeutic agents can be further characterised and new ones identified. This will lead to the targeted developments of new classes of drugs which can be used in the fight against cancer.
I am a cancer biologist investigating mechanisms that regulate the aberrant cell proliferation in cancers, particularly melanomas. I am attempting to utilise defects in normal proliferative mechanisms as targets for novel anti-cancer therapies.
Understanding How Defects In Chromosome Structure Can Cause Disease
Funder
National Health and Medical Research Council
Funding Amount
$546,557.00
Summary
The correct folding of DNA is critical to a cell's survival. This is orchestrated by a special class of proteins called the condensins. Defects in condensin lead to aberrant chromosome folding and disease. We aim to understand how condensin folds chromosomes and why mutations in condensin are increasingly associated with disease.
Understanding The Biological Regulation Of MLKL And Its Role In Necroptotic Cell Death
Funder
National Health and Medical Research Council
Funding Amount
$656,979.00
Summary
Cell death is a normal process that permits the growth and defence of our vital tissues. One kind of cell death, necroptosis, is characterized by the swelling and bursting of cells. When cells ‘explode’ in this uncontrolled way they provoke an inflammatory response. This may be a factor behind illnesses ranging from colitis to cardiovascular disease. Understanding necroptotic cell death may pave the way for new therapies for those that suffer from these devastating conditions.