Identification Of Breast And Ovarian Tumour Suppressor Genes On Chromosome 22 By Functional Complementation
Funder
National Health and Medical Research Council
Funding Amount
$249,250.00
Summary
Cancer is fundamentally a genetic disease that arises when errors (mutations) accumulate in genes involved in regulating how and when cells grow. An important class of gene involved in this process are the tumour suppressors whose primary function is to inhibit cell growth. It is widely believed that significant improvements in the treatment and diagnosis of cancer will only be achievable once we have a detailed understanding of how these genes work. It is likely that dozens of tumour suppressor ....Cancer is fundamentally a genetic disease that arises when errors (mutations) accumulate in genes involved in regulating how and when cells grow. An important class of gene involved in this process are the tumour suppressors whose primary function is to inhibit cell growth. It is widely believed that significant improvements in the treatment and diagnosis of cancer will only be achievable once we have a detailed understanding of how these genes work. It is likely that dozens of tumour suppressor genes exist in the human genome and of these only a small proportion have been identified. The aim of this study is to identify genes on human chromosome 22 that are involved in the development of breast and ovarian cancer. Genetic evidence from many investigators, including data from our own laboratory, has indicated that multiple tumour suppressor genes are present on human chromosome 22 but as yet none have been positively identified. Part of the difficulty in identifying these genes is that cancer cells often have a lot of genetic damage and it is hard to distinguish the important changes from background genetic noise'. To circumvent this problem we are using a functional cloning approach which identifies tumour suppressor genes by their ability to inhibit the growth of cancers cells grown in culture in the laboratory. Genes that are identified in this way will be evaluated for the presence of genetic mutations in real human cancers which will give us a better idea of their true significance in tumour development. In addition to enhancing our understanding of the process tumour development this project may identify new targets for anti-cancer therapies.Read moreRead less
Phosphatidylinositol 3-kinase Mutations Associated With Ovarian, Colon And Breast Tumours
Funder
National Health and Medical Research Council
Funding Amount
$154,000.00
Summary
Colorectal and breast cancers are the two most common registrable cancers in Australia and are second only to lung cancer in the total number of cancer deaths each year (4,678 and 2,612 deaths in 1997 for colorectal and breast, respectively). Ovarian cancer kills a further 740 women each year (Source: Cancer in Australia 1997, AIHW and AACR 2000). Thus, on average, one Australian dies of colorectal, breast or ovarian cancer every hour! Clearly, these are major diseases with a significant impact ....Colorectal and breast cancers are the two most common registrable cancers in Australia and are second only to lung cancer in the total number of cancer deaths each year (4,678 and 2,612 deaths in 1997 for colorectal and breast, respectively). Ovarian cancer kills a further 740 women each year (Source: Cancer in Australia 1997, AIHW and AACR 2000). Thus, on average, one Australian dies of colorectal, breast or ovarian cancer every hour! Clearly, these are major diseases with a significant impact on our society. Unfortunately, though, we still do not understand the basic molecular and-or biochemical abnormalities that initiate and-or drive the development of these cancers. Recent functional and genetic studies in a number of different tumour types (including colon and ovarian) have suggested that members of the phosphatidylinositol 3-kinase (PI3K) enzyme family may be oncogenes (cancer-causing genes). However, strong evidence confirming a causal role for PI3K in human cancer is yet to be reported. Our research proposal outlines a study to address this issue. We have preliminary data demonstrating mutations in at least one member of this enzyme family in a number of tumours. We now propose to undertake a comprehensive analysis of the spectrum, and frequency, of PI3K mutations that occur in colon, breast and ovarian tumours. These studies will allow us to make a definitive assessment of the role of PI3K in the development human cancer. In addition to furthering our understanding of the processes involved in the initiation and progression of human tumours, this project also has the potential to identify new markers for the early detection of cancer and novel targets for new anti-cancer therapies.Read moreRead less
Understanding The Molecular Heterogeneity Of Response And Resistance To Anti-HER2-ErbB2 Agents In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$373,173.00
Summary
A revolution in cancer care will take place in the next decade as we aim to individualize treatment for each patient. A subtype of breast cancer relies on a growth factor called HER2 for growth. Treatments that block HER2 are highly effective and have less side effects than chemotherapy. My study aims to further understand of the biology of this subtype of breast cancer and action of anti-HER2 agents as this will allow us to treat this aggressive type of breast cancer more effectively.
Biological And Clinical Characterisation Of Human Phosphatidylinositide 3-kinase Mutations
Funder
National Health and Medical Research Council
Funding Amount
$33,626.00
Summary
The frequency of PI3K mutations in tumours, suggests that PI3K is one of the most common human oncogenes. Understanding the biological and biochemical significance of these mutations will provide new insights into the biology of human tumourigenesis and further our understanding of the consequence pathways and the progression of human tumours. Such knowledge will help us to identify more effective markers of prognosis, diagnosis, early detection of cancer and design new anti-cancer therapy.
Defining Steps In The Molecular Pathogenesis Of Lung Cancer Using Immortalized Human Bronchial Epithelial Cells
Funder
National Health and Medical Research Council
Funding Amount
$374,344.00
Summary
Lung cancer remains the leading cause of cancer death worldwide and is caused by abnormalities in DNA. This project aims to further our understanding of this disease by altering known cancer-related genes and studying their effect on lung cancer development. This project also aims to identify novel genes in lung cancer as well as tumour expression profiles which can predict response to chemotherapy agents. In summary, this research will identify new gene targets for therapeutic agents.
Melanoma is one of Australia s major cancer problems, but we still do not completely understand why certain people are at higher risk than others. This study is focussed on people who have a strong family history of melanoma, and is part of continuing efforts to identify the gene variants that contribute to melanoma risk. Most of the work described takes place as part of national and international collaborations to map and identify these melanoma susceptibility genes and to characterise their ef ....Melanoma is one of Australia s major cancer problems, but we still do not completely understand why certain people are at higher risk than others. This study is focussed on people who have a strong family history of melanoma, and is part of continuing efforts to identify the gene variants that contribute to melanoma risk. Most of the work described takes place as part of national and international collaborations to map and identify these melanoma susceptibility genes and to characterise their effects. Potential benefits from this research will be a better understanding of the place of genetic testing in assessing people s risk of melanoma, particularly if they have relatives with the disease, and way in which skin features like moles should be taken into account in that assessment. In addition, it is likely that better information about the genes altered in melanoma susceptibility and development will point to useful targets for development of novel anti-cancer agents.Read moreRead less
Integrated Analysis And Functional Characterisation Of Gene Amplicons In Ovarian Cancer
Funder
National Health and Medical Research Council
Funding Amount
$453,068.00
Summary
In Australia in 2001 there were ~1300 new cases of ovarian cancer. Survival of ovarian cancer is very poor and current treatments inadequate. To develop more effective treatments we need to understand the molecular events that cause ovarian cancer. Some genes have multiple copies in ovarian cancer cells and these may be good targets for therapy. We aim to find these genes and determine which ones have a functional effect in the tumour.