Identification And Characterisation Of Novel FLT3-ITD Co-operating Mutations
Funder
National Health and Medical Research Council
Funding Amount
$659,245.00
Summary
Acute myeloid leukaemia is a cancer of the blood and bone marrow. We have identified new genes that act with the known oncogene FLT3-ITD in myeloid disease. We will examine in detail how these new genes contribute to the development of AML. This will aid in the development of new therapies for groups of AML patients with these mutations.
A Functional Assay To Classify Genetic Variants In Lynch Syndrome
Funder
National Health and Medical Research Council
Funding Amount
$368,195.00
Summary
At least one person in every 1000 is affected by Lynch syndrome, in which faulty DNA repair machinery causes high rates of cancer. People with Lynch syndrome can have their risk of cancer cut substantially with regular screening. However, we often struggle to understand whether people with 'non-standard' DNA sequences in particular genes actually have Lynch syndrome. This project develops a simple test that will tell clinicians whether a given sequence change relates to Lynch syndrome or not.
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.
The Role Of EphA2 Signalling And Environmental Modifiers In Cataract.
Funder
National Health and Medical Research Council
Funding Amount
$591,547.00
Summary
In cataract the clear lens in the eye becomes opaque causing blindness. Cataract is very common in the elderly, but is rarely also seen in babies and children. In babies certain gene defects, and in the elderly the genes and environmental factors contribute to cataract. The EPHA2 gene causes cataract in both young and old people. This project aims to understand how EPHA2 and other related genes cause cataract in young and old people, to prevent, delay or improve its treatment in the future.
Analysis Of Circulating Tumour DNA For Mutational Characterisation And Tracking Disease Progression In Multiple Myeloma
Funder
National Health and Medical Research Council
Funding Amount
$908,676.00
Summary
Multiple myeloma is cancer of plasma cells in the bone marrow and presents at multiple sites with dissimilar genetic information (GI) across these sites. Invasive biopsies of multiple sites are required to determine the GI. Cancer cells shed small amounts of DNA into the blood stream and this circulating DNA (ctDNA) contains GI from multiple cancer sites. This project will evaluate the utility of ctDNA to determine GI and to predict treatment response in MM patients.
A Novel Multi-gene Marker Blood Test To Increase Community Participation In Colorectal Cancer Screening.
Funder
National Health and Medical Research Council
Funding Amount
$581,116.00
Summary
Bowel cancer screening programs are vital for early detection and prevention, but participation with the traditional faecal testing mode is less than 35%. Reasons include dislike or unsuitability for faecal testing. These barriers could be overcome and participation could increase using a different sampling mode for the screening test. We have developed a blood test for bowel cancer and will investigate if people who will not screen with the stool test will screen with the blood test instead.
Population Based Genetic Testing For High-risk Breast And Ovarian Cancer Predisposition Genes
Funder
National Health and Medical Research Council
Funding Amount
$1,112,985.00
Summary
Inherited mutations in BRCA1 and BRCA2 confer a very high risk of breast and ovarian cancer. Importantly, once carriers are identified, effective strategies are available that can dramatically reduce the risk of cancer. We will perform genetic testing of a healthy western population to identify breast/ovarian cancer genes before the women develop cancer. Population-based screening could significantly reduce the incidence of these diseases.
The Landscape Of Cancer Genes And Associations With Prognosis In Breast Cancer Diagnosed In Premenopausal Women
Funder
National Health and Medical Research Council
Funding Amount
$700,512.00
Summary
Using state of the art technology, the purpose of this project is understand the implications of known cancer mutations in breast cancer diagnosed in premenopausal ER-positive breast cancer. Mutations are abnormalities in the DNA of genes that can provide a signal for uncontrolled growth, a hallmark of cancer. The unique aspect of this project is use of tissue samples from patients who were diagnosed with breast cancer at a young age. This information will help us develop new treatments.
Detection Of Somatic Mutations In Sporadic Epilepsies
Funder
National Health and Medical Research Council
Funding Amount
$1,256,166.00
Summary
Finding genetic causes of epilepsies is essential for refining treatments and genetic counseling. Genetic mutations may occur after fertilization (somatic mutations). These can be difficult to detect by routine genetic tests. We aim to identify somatic mutations by: very deep sequencing of blood to find low concentrations of mutations, analysing DNA from the cerebrospinal fluid, and analysing DNA obtained from the back of the nose which is closely related to brain tissue.
Somatic Retrotransposition Drives Neoplastic Mutagenesis In Glioblastoma Multiforme
Funder
National Health and Medical Research Council
Funding Amount
$667,342.00
Summary
Retrotransposons are mobile genes that copy-and-paste themselves in our genome. Previously thought to represent “junk DNA”, retrotransposons are increasingly found to play major roles in biology. In a recent landmark publication in Nature, we demonstrated that retrotransposons move in the healthy human brain. In the current study, we will use cutting-edge technologies to determine whether brain cancer can occur as a result. This will provide new perspectives of the genetic basis for cancer.