Identification Of Novel Low Penetrance Genes Associated With Melanoma Risk
Funder
National Health and Medical Research Council
Funding Amount
$399,830.00
Summary
Using pools of DNA samples we will conduct a genome-wide association study for melanoma predisposition genes. The most promising candidate genes will be followed up by sequencing and further geneotyping of additional SNPs in order to identify the causal variants.
Gene And Environmental Factors Influencing The Risk And Outcome Of Childhood Neuroblastoma.
Funder
National Health and Medical Research Council
Funding Amount
$91,573.00
Summary
Neuroblastoma is the most common solid tumour of early childhood. The proposed project will identify gene variations as well as birth characteristics and perinatal factors associated with the cause of neuroblastoma. Understanding the genetic causes of the disease can potentially identify genetic targets for treatment and improve diagnosis, while the identification of risk factors can be translated into interventions for prevention of neuroblastoma.
Sun Exposure, Vitamin D And The Outcome Of Prostate Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$494,698.00
Summary
We will find out whether hours of sun exposure, reported in a standard interview by men with prostate cancer, reduces prostate cancer recurrence and progression. For any effect of sun exposure ithat we observe, we will find out whether it works through vitamin D, which is produced by sunshine on the skin, or is affected by changes in the vitamin D receptor gene, which produces the protein the binds with vitamin D on cells and makes it work. Prostate cancer is the most common cancer in men in Aus ....We will find out whether hours of sun exposure, reported in a standard interview by men with prostate cancer, reduces prostate cancer recurrence and progression. For any effect of sun exposure ithat we observe, we will find out whether it works through vitamin D, which is produced by sunshine on the skin, or is affected by changes in the vitamin D receptor gene, which produces the protein the binds with vitamin D on cells and makes it work. Prostate cancer is the most common cancer in men in Australia, and this study, using two of the largest collections of clinical outcomes data for this disease, will inform researchers, clinicians and consumers about the possible benefits of sun exposure and Vitamin D in the prevention of recurrence or progression of prostate cancer. On present evidence, these effects are very plausible possibilities. It may also identify sub-groups of men in whom sun exposure or vitamin D might be particularly beneficial in improving outcome of prostate cancer.Read moreRead less
Analysis Of Gene Amplification-loss And Methylation Associated With Progression To Metastatic Colorectal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$620,197.00
Summary
Many bowel cancers can be removed by surgery, but in many cases the cancer reoccurs. While chemotherapy can reduce the chance of recurrence, it can produce significant side effects. Currently there are few markers to indicate change of recurrence, therefore deciding who should, or should not receive chemotherapy is difficult to decide. This study will analyse differences in DNA from patients that do and do not relapse, to guide future decisions on patients who will benefit from chemotherapy.
High Resolution Genome-wide Genomic Analysis Of DCIS To Identify Genes Involved In Disease Initiation And Progression
Funder
National Health and Medical Research Council
Funding Amount
$543,370.00
Summary
DCIS is the most common type of noninvasive breast cancer and in some women may progress to malignant disease but little in know about how it develops. We will bring to bear our experience with cutting edge technology and access to extensive clinical resources to the analysis of a large series of pure DCIS with the aim of identifying previously unknown cancer causing genes. This data will lead to the identification of novel breast cancer genes that will assist clinical management.
The Molecular Function And Role Of The New Metastasis Suppressor NDRG1 In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$226,425.00
Summary
With cancer now a leading cause of death in Australia, finding new ways to treat this disease is crucial. Iron is critical for cancer cell growth and metastasis, thus agents that bind iron (called iron chelators) can be used to treat cancer. These drugs up-regulate the gene NDRG1, which has been shown to prevent tumour spread. The role of NDRG1 in tumour growth and spread of cancer cells will be examined as this may lead to novel therapies against cancer (e.g. the use of novel iron chelators).
Breast cancer is a common disease that is generally incurable if detected after it has spread to other organs. There is a lack of understanding of molecular events that drive the process. Cancers contain several types of host cells that contribute to the growth of the tumour, which can be regarded as wounds that never heal. Host cells are co-opted to promote continued growth of the cancer cells. It is the aim of this project to understand how these host cells promote the spread of breast cancer
Function Of FOR Gene Products In Normal And Cancer Cells
Funder
National Health and Medical Research Council
Funding Amount
$521,310.00
Summary
Cancer cells usually exhibit the loss of control of normal cell functions. This involves the increase of proteins which promote growth and cell division and the decrease in proteins which inhibit growth and cell division. Loss of function may also occur in proteins that are normally involved in killing the cell when growth becomes uncontrolled. Many of these proteins interact with one another and in so doing establish pathways and networks of control which must be perturbed and overridden in the ....Cancer cells usually exhibit the loss of control of normal cell functions. This involves the increase of proteins which promote growth and cell division and the decrease in proteins which inhibit growth and cell division. Loss of function may also occur in proteins that are normally involved in killing the cell when growth becomes uncontrolled. Many of these proteins interact with one another and in so doing establish pathways and networks of control which must be perturbed and overridden in the cancer cell. Sometimes this is because the role of the protein is altered in the cancer cell compared to what it normally is in a normal cell. The main aim of this study is to understand the role that is played by a set of proteins that are coded by a single gene. This gene (which we refer to as the FOR gene) spans a region of the human genome which is sensitive to a particular type of mutation. This mutation takes place early in tumour development and therefore we believe that it has important role to play in determining the fate of the cell - helping to cause it to become a tumour cell. We will find out which other proteins in the cell the FOR proteins interact with. Where these proteins are known then this will help determine the pathways in the cell in which the FOR proteins participate. In another approach we will establish animal models (in mice and flies) of mutations in the FOR genes of these species. The transgenic mice will help us find out whether the mutations that we have observed in the FOR gene in various human cancers cause increased sensitivity to mutagens and in so doing aid in transforming normal cells into cancer cells. The transgenic flies will help us identify the metabolic pathways in which the FOR proteins participate. These studies will help understand the roles of the FOR proteins and their significance in cancer.Read moreRead less
I am a molecular biologist and my research is focussed on the importance of epigenetics in early development and disease, especially in cancer. My research to date has resulted in many ground-breaking discoveries relating to DNA methylation patterns, that
Convergence Of Activated C-myb And Wnt Pathways In Colon Cancer
Funder
National Health and Medical Research Council
Funding Amount
$256,320.00
Summary
c-myb is essential for the normal biology of the blood system and the colon. It is involved in regulating the balance between the production of new cells and their timely removal once they have completed their assigned tasks. Another group of factors that make up theWnt pathway also contribute to the normal biology of the colon in man and mouse. Defects that lead to too much c-myb and ineffective control of the Wnt pathway appear to work together to increase the risk and severity of colon cancer ....c-myb is essential for the normal biology of the blood system and the colon. It is involved in regulating the balance between the production of new cells and their timely removal once they have completed their assigned tasks. Another group of factors that make up theWnt pathway also contribute to the normal biology of the colon in man and mouse. Defects that lead to too much c-myb and ineffective control of the Wnt pathway appear to work together to increase the risk and severity of colon cancer. This project is designed to specifically test this observation in animals. In addition it examines in fine detail how c-myb levels increase in colon cancer and how it combines with the Wnt pathway to regulate other genes in colon cancer.Read moreRead less