Clinical Classification Of Regulatory Variants In Breast Cancer Susceptibility Genes
Funder
National Health and Medical Research Council
Funding Amount
$536,966.00
Summary
Variations in our genes can confer a risk of diseases including breast cancer. Determining the clinical significance of these variations is a major and increasing challenge for genetic counselors and clinicians. This project will evaluate the clinical significance of variants in the control regions of breast cancer susceptibility genes. This research will inform the development of guidelines for interpreting such variants in a clinical setting.
Breast And Ovarian Cancer: Beyond Genome Wide Association Studies
Funder
National Health and Medical Research Council
Funding Amount
$863,910.00
Summary
My research is focused on using genetic approaches to understand the basis of cancer, particularly breast and ovarian cancer. Although many risk factors have been identified for these cancers, they do not lend themselves to primary prevention, except for high risk individuals who opt for prophylactic surgery, and so there is an urgent need to understand the aetiology of these cancers in order to develop better risk prediction algorithms and risk reduction medications.
Identification Of Novel Colorectal Cancer Susceptibility Genes
Funder
National Health and Medical Research Council
Funding Amount
$358,093.00
Summary
Colon cancer is one of the most common cancers, with around 1 million cases diagnosed annually. These cancers can be caused by a combination of lifestyle/environmental and genetic factors. Genetics cause ~30% of colon cancers, although the cause is unexplained in ~2/3 of these cases. The aim of this project is to discover new colon cancer genes by extensive gene sequencing of multi-case unexplained colon cancer families, and screening of additional cases and cancer-free individuals.
Statistical Analyses Of Breast Cancer Risks For Australian BRCA1 And BRCA2 Mutation Carriers
Funder
National Health and Medical Research Council
Funding Amount
$424,628.00
Summary
About 10 years ago two genes, called BRCA1 and BRCA2, were discovered. The normal function of these genes is to prevent breast and other cancers from developing. All people have two copies of each gene, one inherited from their mother and one from their father. Women who have inherited a fault in one copy are at increased risk of breast and ovarian cancer. There has been considerable controversy about what their actual cancer risks are, especially about how those risks might depend on their age. ....About 10 years ago two genes, called BRCA1 and BRCA2, were discovered. The normal function of these genes is to prevent breast and other cancers from developing. All people have two copies of each gene, one inherited from their mother and one from their father. Women who have inherited a fault in one copy are at increased risk of breast and ovarian cancer. There has been considerable controversy about what their actual cancer risks are, especially about how those risks might depend on their age. We have already conducted studies on this and have developed the necessary statistical methods to address these issues by analysing data from the families in which there are faulty genes. In this study we propose to use two large Australian studies, one of families with multiple-cases of breast cancer (Kathleen Cuningham Consortium for Research on Familial Breast Cancer; kConFab) and the other of the families of women with breast cancer chosen, irrespective of their family cancer histories, through the Victorian and NSW Cancer Registries (Australian Breast Cancer Family Study; ABCFS). A large amount of work has already been conducted to identify these families and test them for faults in BRCA1 and BRCA2. There are over 350 families who carry faults, making this one of the largest studies of its type in the world. We will check the cancer histories of these families and determine which members have, or are likely to have, inherited a faulty gene. We will then estimate the breast and ovarian cancer risks accurately, and with much more precision, than has been done previously. We will also use these large datasets to develop a simple method to identify which Australian women are most likely to carry a fault in BRCA1 or BRCA2, based on their personal and family cancer histories. This study will assist genetic counsellors inform Australian women who consider mutation testing for BRCA1 and BRCA2 about their cancer risks, and help make breast cancer genetics more cost effective.Read moreRead less
Identification Of Novel Genes Predisposing To Familial Colorectal Cancer By Full Exome Sequencing
Funder
National Health and Medical Research Council
Funding Amount
$158,188.00
Summary
A third of people who develop bowel cancer have a family history of the condition. Currently, we only understand the genes involved in a small number of these families. This proposal will use new genetic techniques to look for gene faults in the remaining families by sequencing all an individual’s genes simultaneously. By identifying new genes, we can accurately assess family members’ bowel cancer risk, effectively target surveillance and help reduce their risk of developing bowel cancer.
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
Exploring The Function Of Breast Cancer-Associated Variants In Long Non-Coding RNAs
Funder
National Health and Medical Research Council
Funding Amount
$501,585.00
Summary
Recent studies have identified regions within the human genome in which DNA sequence variations are associated with an increased risk of breast cancer. Several of these regions do not contain any known protein coding genes, suggesting that non-protein coding genes could be responsible for the associated risk. The aim of this proposal is to identify and characterise these non-coding genes. Understanding how sequences variations in these novel genes contribute to breast cancer will provide novel a ....Recent studies have identified regions within the human genome in which DNA sequence variations are associated with an increased risk of breast cancer. Several of these regions do not contain any known protein coding genes, suggesting that non-protein coding genes could be responsible for the associated risk. The aim of this proposal is to identify and characterise these non-coding genes. Understanding how sequences variations in these novel genes contribute to breast cancer will provide novel avenues for therapy.Read moreRead less
High-Throughout Identification And Targeting Of New Breast Cancer Genes.
Funder
National Health and Medical Research Council
Funding Amount
$640,210.00
Summary
Recent studies have identified DNA sequence variations within the human genome that are associated with an increased risk or can influence the outcome of breast cancer. This research program will identify the key genes affecting cancer development and assess their contribution to cancer growth. I will then use this knowledge to assess their suitability for drug development. Understanding how our DNA contributes to breast cancer will provide new avenues for prevention or treatment.
Identification Of Novel Genes Predisposing To Male Breast Cancer, Their Prevalence And Associated Cancer Risks.
Funder
National Health and Medical Research Council
Funding Amount
$210,284.00
Summary
Male breast cancer (MBC) is rare and understudied. Using the latest technology, this study will identify new genes which cause familial MBC to aid in the genetic counselling and risk assessment of an affected man and his family. The frequency of these novel genes, and all known breast cancer genes will be assessed in a second group of affected men as well as families with an increased female breast cancer risk. By better understanding the cause of MBC, we can improve its management.
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 developed melanoma at an early age (under 40yrs) and will compare their family history of cancer, skin features, genetic characteristics and various aspects of their previous sun exposure with people who don?t have melanoma. The large number of people involved and the fact that they will be selected at random ....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 developed melanoma at an early age (under 40yrs) and will compare their family history of cancer, skin features, genetic characteristics and various aspects of their previous sun exposure with people who don?t have melanoma. The large number of people involved and the fact that they will be selected at random from the population of Melbourne, Sydney and Brisbane which have very different melanoma rates, means that the study will be able to clarify what roles genes and environment play in the disease. It is intended to be an international benchmark in this regard, and Australia is the only country in which a study of this scope could be mounted. Potential benefits from this research will be a better understanding of the way sun exposure affects people differently, depending on their genetic makeup, 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. Finally, it is likely that better information about the types of genetic susceptibility to melanoma in the population will translate to more effective programs for the prevention of melanoma and for detection of melanomas efficiently at the earliest possible stage.Read moreRead less