Defining The Genomic And Therapeutic Landscape Of Familial Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$1,146,096.00
Summary
As a cancer develops it accumulates alterations (mutations) in its DNA. Some of these alterations lead to enhanced tumour growth, whilst others provide insight into normal processes that have gone wrong to enable the tumour to arise. We will use DNA sequencing and mathematical approaches to characterise these alterations and to identify therapeutic targets in breast tumours arising in patients with an inherited predisposition to develop cancer.
Novel Therapeutic Approaches To Ovarian Clear Cell Cancer
Funder
National Health and Medical Research Council
Funding Amount
$500,920.00
Summary
Our study aims to develop novel therapies for clear cell ovarian cancer, a disease that is generally resistant to conventional therapies. We have found unexpected parallels between kidney cancer and ovarian clear cell cancer, and this has been used to better treat patients. This study investigates the underlying molecular changes the control ovarian clear cell cancer growth.
Identification Of Genes Responsible For Familial Predispositions To Haematological Malignancies
Funder
National Health and Medical Research Council
Funding Amount
$713,944.00
Summary
A successful approach to the identification of cancer genes has been to study the 5-10% of cases that occur in families with an inherited predisposition to develop cancer. In contrast to solid tumors, few cancer-causing germ-line mutations have been identified for hematological cancers. We are using cutting edge technologies to identify blood cancer genes in a collection of both Australian and international families and comparing them to similar sporadic cancers.
Determining The Origin Of Lethal Metastases In Multifocal Primary Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$696,470.00
Summary
New biomarkers are required to accurately predict lethal prostate cancer from benign, indolent disaese that doesn't require expensive treatment. To do this relies on finding molecular differences between disease states. Advancements in high throughput genomic technologies enables us to now probe the lethal prostate cancer genome and transcriptome and distinguish this disease state from other forms of prostate cancer.
Melanoma Mutation Profiling For Personalised Treatment
Funder
National Health and Medical Research Council
Funding Amount
$571,191.00
Summary
Melanoma is an aggressive skin cancer, and the leading cause of skin cancer related deaths. Disease spread is difficult to detect and extremely difficult to cure. This bleak clinical outcome is changing with the development of personalised therapies which include small molecule inhibitors to treat metastatic melanoma. Here we seek to identify the spectrum of mutations in patient tumours and circulating tumour cells for advanced personalised treatment.
Role Of A DNA Helicase, Recql4, In Haematopoiesis, Skeletal Biology And Malignancy
Funder
National Health and Medical Research Council
Funding Amount
$750,701.00
Summary
We are interested in understanding how a gene involved in familial cancer works. Mutations in this gene cause patients to develop a range of cancers in their blood and skeleton. We are seeking to understand how this gene functions so that we can understand how the cancers form in these families and also how sporadic cancer forms.
Stratification Of Therapies In HNSCC Through Discovery Of Molecular Signatures
Funder
National Health and Medical Research Council
Funding Amount
$852,600.00
Summary
Human head and neck cancer is a devastating disease with poor survival rates. Using a unique mouse model, we have now uncovered novel genetic defects that trigger cancer development. These defects are also evident in human cancers. This proposal will utilize this mouse model to explore new treatment strategies based on targeting the genetic defect. Ultimately we anticipate that this will translate into personalized therapies that will favourably alter the course of this cancer.
An International Whole Genome Study To Definitively Map Heritable Risk In Sarcomas
Funder
National Health and Medical Research Council
Funding Amount
$836,550.00
Summary
We want to understand why some people get sarcomas, and others do not. This is likely due to genetic causes, because these cancers affect the young. We now have the tools to address this question, and have created the largest and best characterised study of sarcoma families in the world upon which to apply these tools. This project will create an enduring foundation for research into the genetic basis of sarcomas for the next 20 years.
A Genomic Approach Towards An Understanding Of Clonal Evolution And Disease Progression In Multiple Myeloma
Funder
National Health and Medical Research Council
Funding Amount
$671,689.00
Summary
Cancer development is associated with changes in the genetic composition of the cell. These changes involve the loss/gain of genetic material and/or changes in gene expression. Using sophisticated technology, we will define the changes in the genes that are associated with the transition from a benign to a malignant cancer state. We will examine this process in the blood cancer, multiple myeloma, in order to identify new treatment targets for this incurable disease.
Genome Engineered, Preclinical Models Of Serrated Colorectal Cancer To Fast-track A High Sensitivity, Early Detection Test
Funder
National Health and Medical Research Council
Funding Amount
$593,854.00
Summary
1 in 12 Australians will develop colorectal cancer. Here we use information about changes to the genetic (inherited) material of these cancers to develop new, complex models of this disease. This teaches us about what those changes do, and highlights important targets for future drug therapies. We are also developing a better test to detect hidden pre-cancers that are not well detected by our current population screening strategy, to help reduce deaths from this disease.