In this project we aim to define the role of the Siah proteins in tumour angiogenesis and inflammatory responses. Hypoxia, a decrease in oxygen tension, places constrains on tumour growth where access to oxygen is yet to be established via new blood vessel formation. In addition hypoxia is common in areas of inflammation and wound healing, where blood vessels have been shut down to help in recovery. With the use of our Siah knockout mice we have a unique model that allows us, for the first time, ....In this project we aim to define the role of the Siah proteins in tumour angiogenesis and inflammatory responses. Hypoxia, a decrease in oxygen tension, places constrains on tumour growth where access to oxygen is yet to be established via new blood vessel formation. In addition hypoxia is common in areas of inflammation and wound healing, where blood vessels have been shut down to help in recovery. With the use of our Siah knockout mice we have a unique model that allows us, for the first time, to investigate the role of Siah in the hypoxia signalling cascade. How cells sense and react to low oxygen levels is complex and involves several proteins. A key protein is called Hypoxia induced factor, Hif-1. It accumulates under hypoxia and is responsible for the expression of genes enabling the cell to tolerate and function under hypoxic conditions. tolerate and function under hypoxic conditions, which is involved in new blood vessel formation. PHD protein directs the degradation of Hif1, while Siah directs the degradation of PHD, when oxygen is limiting. Loss of Siah proteins (eg in our knockout models) leads to an increase in PHD proteins under hypoxia thus no stabilisation of Hif-1 and impaired response to hypoxia. Thus, sitting on the top of a cascade, which controls the trashing of proteins in the cell (focus of this year's Nobel price for medicine), Siah has primary control on the response to oxygen deprivation. The relative immunity of multicellular organisms to acquired defects is through redundancy. Oxygen is a unique case, for which organisms can not bypass the defect via redundancy, making it an attractive target for future therapy. Therefore, understanding the molecular and cellular response to hypoxia may allow us to identify key molecules which could be targeted for the development of novel anti inflammatory and cancer drugs. The scope of this study is to understand the key role of Siah utilising our knockout mice in models of inflammation and cancer.Read moreRead less
Characterisation Of The Role & Biomarker Potential Of The Novel Cell Surface Protein TTYH2 In Renal Cell Carcinoma
Funder
National Health and Medical Research Council
Funding Amount
$489,000.00
Summary
Renal cell carcinoma is the most common cancer of the kidney. One-third of patients upon first diagnosis have secondary tumour sites already within their body as well as new treatment approaches for more advanced disease making them very difficult to cure. An early specific test for this cancer is urgently needed. Our group has identified a new gene called TTYH2 which is highly expressed by renal cell carcinoma tissue samples but not in normal kidney tissues. In this study, we intend to look at ....Renal cell carcinoma is the most common cancer of the kidney. One-third of patients upon first diagnosis have secondary tumour sites already within their body as well as new treatment approaches for more advanced disease making them very difficult to cure. An early specific test for this cancer is urgently needed. Our group has identified a new gene called TTYH2 which is highly expressed by renal cell carcinoma tissue samples but not in normal kidney tissues. In this study, we intend to look at the expression of TTYH2 in more clinical samples to determine if TTYH2 will be a useful bio-marker for this cancer. We are also studying the function of this protein in renal cell carcinoma cells to identify the exact role that TTYH2 performs in cancer development and progression. Finally we will look at what other proteins are interacting with TTYH2 in kidney cancer cells. These latter studies will help us to understand the disease process better and may help us design new treatment methods.Read moreRead less
EphA3-modulated Cell Positioning In Tumour Invasion And Neovascularisation.
Funder
National Health and Medical Research Council
Funding Amount
$647,232.00
Summary
During the progression of human cancers, tumor cells increasingly lose their ability to communicate and co-exist in a regulated fashion with normal cells to maintain the status quo. Because they multiply uncontrollably, tumour cells spread into surrounding tissue and can invade other organs of the body. The Ephs and interacting ephrins are proteins on the cell surface, and their communication controls the position of cells within the body tissues and organs, but also in tumours. Together with co ....During the progression of human cancers, tumor cells increasingly lose their ability to communicate and co-exist in a regulated fashion with normal cells to maintain the status quo. Because they multiply uncontrollably, tumour cells spread into surrounding tissue and can invade other organs of the body. The Ephs and interacting ephrins are proteins on the cell surface, and their communication controls the position of cells within the body tissues and organs, but also in tumours. Together with collaborators at the Ludwig Institute for Cancer Research and the Queensland Institute for Medical Research we produced two proteins, an antibody and a recombinant ephrin that bind one of the Eph proteins on tumour cells. The antibody allowed us to locate Eph in tumours, where it appears surprisingly not only on tumour cells but also on tumour blood vessels. When attached to a redioactive compund it selectively targets the cancer cells and in an animal study prolonged the survival of mice with leukemia significantly. We will now investigate the exact role of this Eph protein in tumour blood vessels. We will then study what happens in tumours when a toxic antibody-drug compound targets this tumour and starts to kill tumour cells. Finally, we will devise a novel reagent that combines the properties of the antibody with the properties of the ephrin into a single protein, which can deliver a cell-killing drug exclusively and most efficiently to tumour cells containing the Eph protein on its surface.Read moreRead less
Molecular Identification Of Causative Genetic And Epigenetic Alterations That Induce And Promote Colorectal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$381,821.00
Summary
The majority of mouse models currently employed to study colorectal cancer have two failings. The first is that they tend to focus on small intestinal cancers rather than colorectal cancers. It is important to note that small intestinal cancers are in the minority of gastrointestinal cancers in humans. The second problem is that the genetic lesions introduced into mice are mostly in all cells throughout development. This is a poor representation of the random nature of genetic changes that under ....The majority of mouse models currently employed to study colorectal cancer have two failings. The first is that they tend to focus on small intestinal cancers rather than colorectal cancers. It is important to note that small intestinal cancers are in the minority of gastrointestinal cancers in humans. The second problem is that the genetic lesions introduced into mice are mostly in all cells throughout development. This is a poor representation of the random nature of genetic changes that underpin the probable cause of colon cancer. We therefore propose to genetically engineer unique mouse models that focus on colon cancer to most closely replicate the situation in human disease. These models will then be available to others and us to develop and test therapies to prevent and-or treat colorectal cancer that will ultimately be used in patients.Read moreRead less
Molecular Determinants Of Risk, Progression And Treatment Response In Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$8,381,820.00
Summary
Melanoma is a major Australian health problem. NSW figures for 2002 show it to be the second most common cancer in men and women. It has a disproportionately heavy impact on productive years of the life of young Australians because it is the commonest cancer in those aged 15-45 years. The investigators are all associated with the Sydney Melanoma Unit (SMU), the world�s largest clinical service dedicated to the treatment of melanoma, treating >1200 new melanoma patients annually. We have also ....Melanoma is a major Australian health problem. NSW figures for 2002 show it to be the second most common cancer in men and women. It has a disproportionately heavy impact on productive years of the life of young Australians because it is the commonest cancer in those aged 15-45 years. The investigators are all associated with the Sydney Melanoma Unit (SMU), the world�s largest clinical service dedicated to the treatment of melanoma, treating >1200 new melanoma patients annually. We have also recruited large cohorts of individuals with high susceptibility to melanoma, both familial and population-based, throughout southeastern Australia. We aim to utilise these unique, internationally-recognised resources to develop a scientific basis for 1) improved management of individuals at high risk for development and progression of melanoma, and 2) improved treatment of patients with early and disseminated melanoma. We will base this on consolidation of existing collaborative research into molecular predictors of risk, progression and treatment response in melanoma.Read moreRead less
The Breast Cancer Biospecimen Resource will consist of stored samples of the majority of newly diagnosed breast cancers in NSW and through the Australian and New Zealand Breast Cancer Trials Group together with accurate, prospectively tracked clinical data on each specimen. This facility will serve as a model for extension of similar procedures to other common Australian cancers including cancers of the lung, bowel, prostate and melanoma. Research that is facilitated by this Resource holds real ....The Breast Cancer Biospecimen Resource will consist of stored samples of the majority of newly diagnosed breast cancers in NSW and through the Australian and New Zealand Breast Cancer Trials Group together with accurate, prospectively tracked clinical data on each specimen. This facility will serve as a model for extension of similar procedures to other common Australian cancers including cancers of the lung, bowel, prostate and melanoma. Research that is facilitated by this Resource holds real promise for improving patient selection for treatment. This will return a significant humanitarian and cost saving benefit. In addition this advance would also maximise the benefit of population mammographic screening.Read moreRead less
Proteomic Screening For Apoptotic Markers In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$531,696.00
Summary
The induction of apoptosis, or programmed cell death, is a key factor in the response of tumours to chemotherapeutic agents and ionising radiation; therefore biological markers that predict the clinical outcome to these therapies are needed. Over the past 2 years, our laboratory has developed techniques of protein analysis to evaluate changes in proteins during apoptosis caused by chemotherapeutic agents. Preliminary protein profiling studies of apoptosis induction in human breast cancer cell li ....The induction of apoptosis, or programmed cell death, is a key factor in the response of tumours to chemotherapeutic agents and ionising radiation; therefore biological markers that predict the clinical outcome to these therapies are needed. Over the past 2 years, our laboratory has developed techniques of protein analysis to evaluate changes in proteins during apoptosis caused by chemotherapeutic agents. Preliminary protein profiling studies of apoptosis induction in human breast cancer cell lines showed time-dependent decreases in two proteins, identified as S100A6 and ubiquitin. Both are known to be important in cell function. In the proposed project we will build on our preliminary findings to provide important new information central to the understanding of cancer cell biology and apoptosis in addition to evaluating the ability of anti-cancer treatments to induce apoptosis. Using a combination of protein analysis technologies, this project has the potential to provide reliable and novel biomarkers which will indicate the efficacy and selectivity of anti-cancer treatments in inducing tumour cell death. The knowledge gained in this project will aid clinical assessment of the response to cancer treatment(s) in patients in the form of specific screening assays, and may result in identification and development of effective new agents for cancer treatment and prevention. Furthermore, the outcomes of this project will increase our understanding of fundamental cancer cell biology and apoptosis.Read moreRead less
mTOR signalling in serous ovarian cancer. Serous ovarian cancer is the most aggressive and lethal gynaecological cancer in Australian women. Activation of Mammalian Target of Rapamycin (mTOR) is frequently observed and associated with poor prognosis in ovarian cancer patients. However, the mechanisms dysregulating mTOR in the pathogenesis of ovarian cancer are unknown. In preliminary studies, deletion of genes regulating mTOR signalling in up to 60 per cent of human serous ovarian cancer patien ....mTOR signalling in serous ovarian cancer. Serous ovarian cancer is the most aggressive and lethal gynaecological cancer in Australian women. Activation of Mammalian Target of Rapamycin (mTOR) is frequently observed and associated with poor prognosis in ovarian cancer patients. However, the mechanisms dysregulating mTOR in the pathogenesis of ovarian cancer are unknown. In preliminary studies, deletion of genes regulating mTOR signalling in up to 60 per cent of human serous ovarian cancer patients was observed. This project will provide mechanistic details of involvement of mTOR signalling in pathogenesis of the serous ovarian carcinoma, and develop a rationale for targeting mTOR pathway in these patients. Read moreRead less
Total Laparoscopic Hysterectomy (TLH) Vs. Total Abdominal Hysterectomy (TAH) For The Treatment Of Endometrial Cancer
Funder
National Health and Medical Research Council
Funding Amount
$809,860.00
Summary
The LACE study is a clinical trial comparing two types of surgery for women with early-stage cancer of the inner lining of the uterus, known as endometrial cancer. Treatment for endometrial cancer involves removal of the uterus, tubes, ovaries and lymph nodes. Traditionally this has been performed by open surgery via an abdominal incision. Open surgery is effective for endometrial cancer, but it is highly invasive, resulting in visible scarring, tissue damage, blood loss and a fairly high risk o ....The LACE study is a clinical trial comparing two types of surgery for women with early-stage cancer of the inner lining of the uterus, known as endometrial cancer. Treatment for endometrial cancer involves removal of the uterus, tubes, ovaries and lymph nodes. Traditionally this has been performed by open surgery via an abdominal incision. Open surgery is effective for endometrial cancer, but it is highly invasive, resulting in visible scarring, tissue damage, blood loss and a fairly high risk of complications. Laparoscopic surgery, commonly referred to as keyhole surgery, is a new approach to removing the uterus, tubes, ovaries and lymph nodes. Preliminary results from this less invasive surgery have been extremely encouraging. Laparoscopic surgery is practical and safe in treating endometrial cancer, while also resulting in less tissue damage, lower blood loss, less pain and a shorter recovery period in hospital. The LACE study aims to give definitive answers about the results offered by laparoscopic surgery in treating women with early stage endometrial cancer. The primary aim is to investigate whether the treatment of endometrial cancer using laparoscopic surgery is as good as that using open surgery. Secondary aims look at whether laparoscopic surgery provides more benefits compared to open surgery for endometrial cancer, such as: - improvements in the quality of life post-surgery, - reduced number of early and late surgery-related complications, - shorter stays in hospital, - fewer blood transfusions required, - less pain post-surgery, and hence fewer pain-killers. The LACE study is already under way, with recruitment on target for Stage 1. This application seeks funding for Stage 2, to expand recruitment from 2007. The outcomes of the trial will have a significant bearing on the future choice of treatment for endometrial cancer. Therefore the study will impact many patients around the world, including ~2000 women every year in Australia.Read moreRead less