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Genomic Profiling For The Prevention Of Colorectal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$425,048.00
Summary
Bowel cancer is a major health issue but is also a preventable disease. Identifying who has a high risk of developing bowel cancer from someone who has a low risk is an important way to ensure preventative medical treatment is targeted to those who are at the highest risk and will ultimately save lives. I will utilise different genomic profiling approaches to identify risk factors for bowel cancer so that they can be used to identify high risk people in the population.
Molecular Characterisation Of Early Precursor Lesions Of A Novel Ñserrated Pathwayî Of Colorectal Cancer Using Gene Expression And Proteomics.
Funder
National Health and Medical Research Council
Funding Amount
$318,338.00
Summary
In Australia, CRC is the second highest cause of all cancer-related deaths. If detected early, CRC has a high success rate of cure, but a percentage of precursor lesions escape detection and show aggressive clinical behaviour to progress to CRC. These are difficult to diagnosis with existing technologies. We aim to understand the biology behind sessile serrated adenoma pathways and hence enhance early detection, diagnosis and treatments strategies.
Mechanistic Basis Of AP-1-regulated Gene Expression During Colorectal Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$597,802.00
Summary
The spread of colorectal cancers in the body poses a major clinical problem for which current treatment options are inadequate. This project aims to unravel how a specific DNA-binding protein regulates the expression of genes involved in the spread of these cancers. The research is expected to provide a better mechanistic understanding of how disease progression occurs and to identify novel strategies to treat aggressive tumours.
Novel Approaches For Activation And Expansion Of Genetically Modified T Cells In Vivo
Funder
National Health and Medical Research Council
Funding Amount
$115,660.00
Summary
Killer T lymphocytes can penetrate tumors and their propagation and transfer into cancer patients has demonstrated some encouraging results, but this form of adoptive immunotherapy remains ineffective in most cancer patients. We propose to improve the tumor trafficking and anti-tumor activities of killer cells by genetically engineering them with proteins that will enable them to recognise and destroy cancer cells. Our previous work has indicated that killer T lymphocytes can be genetically engi ....Killer T lymphocytes can penetrate tumors and their propagation and transfer into cancer patients has demonstrated some encouraging results, but this form of adoptive immunotherapy remains ineffective in most cancer patients. We propose to improve the tumor trafficking and anti-tumor activities of killer cells by genetically engineering them with proteins that will enable them to recognise and destroy cancer cells. Our previous work has indicated that killer T lymphocytes can be genetically engineered in culture with tumor recognition receptors. When transferred into mice, these genetically engineered cells can release toxic and inflammatory proteins that cause tumor destruction. In this proposal we wish to further test this approach in mice by enginneering the mouse killer T cells with (i) receptors that provide stronger signals for killing and proliferation; and (ii) with receptors targeting other structures on tumor cells including the tumor vasculature as a means to overcome tumor escape. In addition, we wish to test a novel approach of combining both genetic engineering and vaccination strategies for expanding gene-modified cells after adoptive transfer. These studies will allow the best receptor genes to be transferred to human white blood cells and examined for anti-tumor effects in immune-deficient mice.Read moreRead less
Integrated System Wide Characterization Of Microbiota And Host Factors Influencing Intestinal Colonization Resistance To The Healthcare Pathogen Clostridium Difficile
Funder
National Health and Medical Research Council
Funding Amount
$359,999.00
Summary
Naturally occurring bacteria play an important role in determining patient disease susceptibility, disease progression and ultimately, disease outcome. Over 1000 species of bacteria, contributing 10 times as many cells as found within a single individual. This project seeks to understand these communities, how they confer resistance to infection and how they can be manipulated, both naturally and through controlled introduction of bacteria to prevent disease or improve disease outcome.
Unlocking Hidden Cancer Drivers Using Transcriptome Data
Funder
National Health and Medical Research Council
Funding Amount
$700,473.00
Summary
New sequencing technologies allow us to get an unbiased look at the molecular signalling in a tumour. However this information is very complex and need specialised methods in statistic and computation in order to make new discoveries. Here will will develop analysis methods to find novel transcriptional variants in cancer and then test them in the lab in order to understand if our discoveries are responsible for causing cancer.
Investigating Cytoskeletal Dynamics Across The Lifecycle Of The Malaria Parasite
Funder
National Health and Medical Research Council
Funding Amount
$387,741.00
Summary
During its lifecycle the malaria parasite must cross tissues and invade cells in two very different hosts - humans and mosquitos. Although the molecules that drive this process are known, we know nothing about their dynamics in live parasites. Here, we will use state-of-the art microscopy and genetics to dissect parasite motility, tracking proteins in the parasite cell on their journey from human host through to the mosquito - utilising the first Australian malaria-dedicated insectary.
Plasmin is a complex enzyme that performs major roles in removal of blood clots, wound healing and in tumor metastasis. Here we will understand how plasmin function is regulated at the molecular level. These key insights will be of future use in the development of therapeutics targeting the plasmin system in cancer and clotting diseases.
Investigating The Consequences Of Dysregulated Lipogenesis In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$600,647.00
Summary
Reprogramming of cellular metabolism is a hallmark of cancer. As such, there has been growing interest in developing strategies to exploit metabolism for therapeutic gain. Our ability to do this is dependent on a thorough understanding of the mechanisms by which dysregulation of cellular metabolism contributes to tumour progression. In this project, we seek to the investigate the fundamental mechanisms by which aberrant activation of lipid metabolism contributes to the tumourigenic process.