The Roles Of EZH2 And FOXO1A In CNS-PNET Pathogenesis.
Funder
National Health and Medical Research Council
Funding Amount
$467,517.00
Summary
Although CNS-PNETs are the most common embryonal CNS tumours of childhood and cause significant mortality and morbidity, there is a very limited understanding of the pathogenesis of this aggressive disease. This situation is a major handicap to the development of more specific and effective therapies. While a better understanding of the fundamental pathology of CNS-PNETs will have immediate diagnostic implications, the elucidation of the biochemical pathways that are disrupted in these tumours w ....Although CNS-PNETs are the most common embryonal CNS tumours of childhood and cause significant mortality and morbidity, there is a very limited understanding of the pathogenesis of this aggressive disease. This situation is a major handicap to the development of more specific and effective therapies. While a better understanding of the fundamental pathology of CNS-PNETs will have immediate diagnostic implications, the elucidation of the biochemical pathways that are disrupted in these tumours will facilitate the design of new drugs that are specifically directed towards the critical proteins in these pathways. The identification of specific genes and-or pathways that are deregulated in CNS-PNET cells is essential for the development of safer, more directed, and more effective therapies that are urgently required for the treatment of those with this devastating disease.Read moreRead less
Role Of Betaglycan In Gonadal And Adrenal Tumourigenesis
Funder
National Health and Medical Research Council
Funding Amount
$487,500.00
Summary
TGF-beta and inhibin are related multifunctional growth factors which regulate a number of important cellular functions, including proliferation, differentiation, and survival. Betaglycan is a cell-surface protein that binds both inhibin and TGF-beta. Betaglycan appears to regulate the binding and availability of the TGF-betas and inhibins to their signaling receptors, and its presence on the cell surface increases the efficiency of TGF-beta and inhibin function. Deletion of the inhibin gene in ....TGF-beta and inhibin are related multifunctional growth factors which regulate a number of important cellular functions, including proliferation, differentiation, and survival. Betaglycan is a cell-surface protein that binds both inhibin and TGF-beta. Betaglycan appears to regulate the binding and availability of the TGF-betas and inhibins to their signaling receptors, and its presence on the cell surface increases the efficiency of TGF-beta and inhibin function. Deletion of the inhibin gene in mice produces tumours in the ovary, testis, and adrenal gland in 100% of the mice. In this current proposal, we will delete the betaglycan gene in the primary target tissues for inhibin (the anterior pituitary and gonads). The hypothesis we are testing is that the loss of a co-receptor for inhibin (i.e. betaglycan) results in a loss of cellular sensitivity to inhibin, thus resulting in altered growth characteristics which predispose the gonads and adrenals to cancer. We will examine these cells in culture and in living animals to determine whether our hypotheses are correct. We will also conduct a series of histological, biochemical, and biological experiments in order determine the underlying causes of any observed growth dysregulation. This work is expected to yield information relevant to the role of betaglycan in inhibin-TGFb-regulated processes in normal and cancerous growth, which may allow future design of therapies for cancer.Read moreRead less
Inherited determinants of cancer aetiology. Family history of cancer is a strong risk factor for many cancers. This project will aim to identify inherited factors influencing risk of developing cancer and those factors influencing the course of the disease and outcomes.
Identification of novel therapeutic targets for selectively eliminating cancer stem cells in paediatric leukaemia. Leukaemia is the most common form of cancer in children, and while the majority of children can be cured, those who relapse face a dire prognosis. It is widely believed that leukemic stem cells are responsible for relapse and this project will aim to unravel their underlying biology and identify new targets for therapeutic approaches to the disease.
Studying precancerous stem cells that cause T cell leukaemia. Recent research has identified abnormal stem cells that are the cause of T cell leukaemia. They are also resistant to therapeutics suggesting that they could be a cause of relapse. The aim of this project is to determine the abnormal pathways that cause these cells to become immortal and to determine new therapeutic strategies to eliminate them.
Detection of infrared-biomarkers for the diagnosis and treatment of canine neoplasia. This research hopes to discover infrared-biomarkers for canine cancers using synchrotron infrared and laser light. Many dog cancers are similar to human cancers so cancerous tissues and cells from dogs make excellent models for human cancer research. This project will provide new insights and technological approaches to cancer diagnosis and treatment.
Molecular And Cellular Determinants Of Tubulin-targeted Drug Action
Funder
National Health and Medical Research Council
Funding Amount
$484,500.00
Summary
Cancer is the leading cause of death in developed countries. Despite advances in the use of combination chemotherapy, drug resistance is the major cause of treatment failure. An important component in the treatment of many childhood and adult cancers are the antimicrotubule agents. These drugs target an important part of the cell skeleton called the tubulin-microtubule system that is responsible for many important events including cell division. It is the ability of these drugs to disrupt cell d ....Cancer is the leading cause of death in developed countries. Despite advances in the use of combination chemotherapy, drug resistance is the major cause of treatment failure. An important component in the treatment of many childhood and adult cancers are the antimicrotubule agents. These drugs target an important part of the cell skeleton called the tubulin-microtubule system that is responsible for many important events including cell division. It is the ability of these drugs to disrupt cell division in cancer cells that makes them so effective and such important targets for new drug design. Unfortunately, the reasons why tumours develop resistance to these drugs or even why some tumours do respond well is not understood. This proposal will determine how the makeup and stability of the tubulin-microtubule proteins influences how these drugs work in both childhood and adult tumour cells. Finally, components of drug resistant tumour cells will be examined using technology that allows us to simultaneously separate and identify hundreds of proteins some of which may provide useful targets for the design of new drugs for the treatment of cancer. To improve cancer survival rates it is essential to accurately target the use of existing drugs and to identify new targets for anticancer drug development.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE120100091
Funder
Australian Research Council
Funding Amount
$250,000.00
Summary
A five laser multichannel flow cytometry cell sorter for the University of New South Wales as part of an advanced flow cytometry network. Flow cytometry is a technique for counting and examining microscopic particles, such as cells and chromosomes, by suspending them in a stream of fluid and passing them by an electronic detection apparatus. This project will establish such advanced cell sorting instrumentation at the University of New South Wales, providing this capability to a wide range of re ....A five laser multichannel flow cytometry cell sorter for the University of New South Wales as part of an advanced flow cytometry network. Flow cytometry is a technique for counting and examining microscopic particles, such as cells and chromosomes, by suspending them in a stream of fluid and passing them by an electronic detection apparatus. This project will establish such advanced cell sorting instrumentation at the University of New South Wales, providing this capability to a wide range of researchers in diverse fields. The project will also provide a basis for establishing a flow cytometry network with partner institutes University of Sydney and the University of Technology, Sydney.Read moreRead less
EGFR-directed radioimmunotherapy combined with chemotherapy and DNA repair inhibition: development towards clinical application for aggressive cancers. Pancreatic ductal adenocarcinoma (PDAC) and triple negative breast cancer (TNBC) are aggressive diseases which lack effective therapies in clinical use. A novel and curative therapy was developed against PDAC and TNBC which involves targeted radiotherapy combined with chemotherapy and DNA damage response inhibition. This project will develop a “p ....EGFR-directed radioimmunotherapy combined with chemotherapy and DNA repair inhibition: development towards clinical application for aggressive cancers. Pancreatic ductal adenocarcinoma (PDAC) and triple negative breast cancer (TNBC) are aggressive diseases which lack effective therapies in clinical use. A novel and curative therapy was developed against PDAC and TNBC which involves targeted radiotherapy combined with chemotherapy and DNA damage response inhibition. This project will develop a “preclinical data package” comprising a biological rationale and preclinical evidence of safety and efficacy that together would justify an early phase clinical trial. This package includes the choice of formulations, mechanism of action and safety studies. This development will have an immediate impact for PDAC and TNBC patients and a future impact on other EGFR-positive cancers.Read moreRead less