Using MiR-200 To Find New Therapeutic Targets For Neuroblastoma
Funder
National Health and Medical Research Council
Funding Amount
$563,152.00
Summary
Neuroblastoma is one of the most common cancers in children. We have found that a genetic regulator, called microRNA, can limit the ability of neuroblastoma cells to invade surrounding tissues and metastasise. We aim use the microRNAs to find new therapeutic targets that may work in combination with existing treatments, reducing the short term toxicity and long term deleterious effects of current treatments.
Regulation Of ERK Driven Cell Proliferation By The Actin Cytoskeleton
Funder
National Health and Medical Research Council
Funding Amount
$920,972.00
Summary
The cells in your body respond to external signals and control their proliferation by transmitting signals from one part of the cell to another. This has usually been thought to involve the movement of signals through a liquid medium without the involvement of any machinery to control the movement. The project aims to test the role of the architecture of the cells in physically moving a growth signal from one place to another. We think that the architecture involved plays a key role in cancer.
Development Of Anti-tropomyosin Drugs For The Treatment Of Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$578,352.00
Summary
Australia has the highest incidence of melanoma worldwide. There is a clear need to develop new strategies as melanoma is unresponsive to current treatment regimes. We have developed a compound, TR100, which targets a specific component of the cytoskeleton of melanoma tumour cells. Disruption of this cytoskeleton leads to decreased tumour cell growth and survival. Understanding the mechanism by which TR100 causes cell death is important if this novel anti-cancer compound is to be used in the cli ....Australia has the highest incidence of melanoma worldwide. There is a clear need to develop new strategies as melanoma is unresponsive to current treatment regimes. We have developed a compound, TR100, which targets a specific component of the cytoskeleton of melanoma tumour cells. Disruption of this cytoskeleton leads to decreased tumour cell growth and survival. Understanding the mechanism by which TR100 causes cell death is important if this novel anti-cancer compound is to be used in the clinic.Read moreRead less
I am a cell biologist/geneticist focusing on understanding tumourigenesis. Cancer is a multigenic and complicated disease, involving interactions between the tumour and normal tissue. I use the genetically tractable model organism, the vinegar fly, Drosophila, to model cancer in situ and identify novel genes that drive cancer. My 5 year career plan is to use the Drosophila system to model cooperative tumourigenesis in epithelial and brain tissues and translate this to human cancer.