Nuclear architecture is critical to the preservation of genome integrity. The aim of this research proposal is to delineate the role of chromatin organisation in transcription factor target search and damage site recruitment of DNA repair factor machinery. To achieve this I have developed fluorescence microscopy methods to monitor changes in chromatin structure with submicron resolution. Only with this technology can I determine how chromatin dynamics maintain genome integrity or induce disease.
Mechanisms Of Regulating Gene Expression Via Selective MRNA Transport
Funder
National Health and Medical Research Council
Funding Amount
$424,076.00
Summary
A critical step in the gene expression pathway that is altered in cancer is nuclear export of mRNA. We have demonstrated that mRNA export is not constitutive, but highly selective and can regulate distinct biological processes through poorly understood mechanisms. This project aims to dissect the molecular mechanisms of regulating gene expression via selective mRNA transport. This will establish selective mRNA export as a novel area of research in cancer biology.
Pathways That Regulate Nuclear Export Of Circular RNA
Funder
National Health and Medical Research Council
Funding Amount
$933,327.00
Summary
An emerging and unusual class of RNA molecules, circular RNAs (circRNAs), is widespread and plays important roles in cancer initiation and progression. However, the pathways responsible for nuclear export of circRNAs are unknown. We propose here to systematically determine how circRNAs are exported from the nucleus and characterise the effect of modulating circRNA export pathways in cancer. This will enable us to determine whether circRNAs can function as a biomarker of patient response.
Altered Nuclear Trafficking And Nuclear Body Dynamics As Drivers Of Ataxin-1 Toxicity
Funder
National Health and Medical Research Council
Funding Amount
$755,190.00
Summary
Ataxias are a large group of neurodegenerative disorders in which balance, motor skills and memory are progressively lost. While mutations in specific proteins do cause certain hereditary ataxias, the mechanisms of their detrimental actions is unclear. Our studies probe the toxic mechanisms of the ataxin-1 protein, focusing on its partners and stress-initiated formation of a toxic hydrogel state. The outcomes will define impacts on cellular protein movement in neurodegeneration more broadly.
Regulation Of The Tumour Suppressors APC And BRCA1 By Nuclear Export
Funder
National Health and Medical Research Council
Funding Amount
$530,874.00
Summary
Cancer cells lack the ability to control their own growth, and thus continously divide in their local environment, leading to tumour formation. Tumour suppressor proteins, like APC and BRCA1, normally function as regulators to help cells respond to outside signals and to stop growing when necessary. The inactivation and altered cellular localisation of tumour suppressor proteins can contribute to cancer development. We have found that the APC and BRCA1 proteins, whose inactivation leads to devel ....Cancer cells lack the ability to control their own growth, and thus continously divide in their local environment, leading to tumour formation. Tumour suppressor proteins, like APC and BRCA1, normally function as regulators to help cells respond to outside signals and to stop growing when necessary. The inactivation and altered cellular localisation of tumour suppressor proteins can contribute to cancer development. We have found that the APC and BRCA1 proteins, whose inactivation leads to development of colon cancer and breast cancer, respectively, contain signals that dictate their movement within the cell. Our novel preliminary findings reveal that APC and BRCA1 are able to move in and out of the cell nucleus. We aim to define how this occurs, and examine how the regulation of their cellular location affects the normal function of these cancer-suppressing proteins. Finally, abnormalities in the nuclear passage of APC or BRCA1 might explain their altered cellular location in cancer cells.Read moreRead less
Roles Of The Nuclear Growth Hormone Receptor In Cell Proliferation And Survival
Funder
National Health and Medical Research Council
Funding Amount
$429,387.00
Summary
We have discovered that the cell surface receptor for growth hormone travels to the cell nucleus in dividing cells, including cancer cells. Given the role of growth hormone in promoting growth postnatally, we seek to uncover how the nuclear receptor promotes proliferation directly, and by gene splicing. We have identified strong candidates for its direct actions through proteomics, and a DNA binding site for the receptor. Here we will investigate its role in proliferation, gene splicing and DNA ....We have discovered that the cell surface receptor for growth hormone travels to the cell nucleus in dividing cells, including cancer cells. Given the role of growth hormone in promoting growth postnatally, we seek to uncover how the nuclear receptor promotes proliferation directly, and by gene splicing. We have identified strong candidates for its direct actions through proteomics, and a DNA binding site for the receptor. Here we will investigate its role in proliferation, gene splicing and DNA strand break repair after cell irradiation.Read moreRead less
Epigenetic Regulation By PKC-theta In Human Breast Cancer Stem Cells.
Funder
National Health and Medical Research Council
Funding Amount
$818,132.00
Summary
Treating women with advanced breast cancer is difficult, and new drugs are needed to kill the cancer stem cells that cause recurrence. We think that a newly discovered protein, PKC-?, plays an important role in recurring breast cancer and can be targeted using novel ‘epigenetic’ drugs. Here, we will use cutting-edge DNA techniques to learn how this protein controls how cancer cells grow and produce the necessary data to show that targeting this protein is likely to be effective in real patients.
Functional Significance Of Subcellular Localisation Of Viral 3C Protease In Rhinovirus Pathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$613,513.00
Summary
Rhinovirus (RV) infections are the major cause of virus induced asthma attacks and common colds, causing significant morbidity and mortality. The incidence of asthma is increasing worldwide with new strategies urgently needed to reduce RV-associated disease. We have observed RV 3C protease in the nuclear compartment of infected host cells and propose to determine its significance in RV pathogenesis with relevance to asthma therapies.