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.
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.
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.
TRF2 Protein And T-loop Replication In Alternative Lengthening Of Telomeres
Funder
National Health and Medical Research Council
Funding Amount
$398,156.00
Summary
Telomere loss acts as a clock telling cells when to stop proliferating. Cancer cells ignore this clock and grow indefinitely by preventing the normal loss of telomeres. Little is known about one of the methods cancers use to preserve telomeres, called ALT, which is employed by some brain tumours and other cancers. We will determine if the TRF2 protein is involved in controlling ALT. This will lay the basis for future anti-cancer treatments targeted at ALT.
Identifying The Targets Of MiRNA Regulation In Cancer
Funder
National Health and Medical Research Council
Funding Amount
$290,600.00
Summary
microRNAs are noncoding RNAs with fundamental functions in biology and significant roles disease. microRNAs control gene expression by destroying RNA or controlling its translation into cellular proteins. To determine how certain microRNAs cause human disease it is essential to know their RNA targets. We are developing methods to identify these targets and aim to apply these methods to identify the targets of microRNAs with known roles in cancer.
Novel Strategies In Cancer Cell Invasion In High-density 3D Matrix
Funder
National Health and Medical Research Council
Funding Amount
$60,768.00
Summary
The use of high-density (HD) matrix to study cell invasion sets precedence in mimicking the HD breast tissue condition that pose a real cancer risk. Cell invasion promotes the spread of cancer causing organ failures and death. The aims of this project are to determine the molecular mechanisms and to isolate new regulatory markers of cell invasion into HD matrix. Putative markers will be confirmed by investigating their expression levels in tissue arrays of 195 breast cancer samples.
Primary central nervous system (CNS) tumours, arising in the brain and spinal cord, are the leading cause of cancer-related deaths in children less than 15 years of age. Medulloblastomas and other primitive neuroectodermal tumours (PNETs) are the most common form of primary childhood brain tumours, accounting for 25-30% of cases. Despite notable recent advances in our understanding of the molecular genetic basis of malignancies, the pathogenesis of CNS PNETs remains obscure. To address this prob ....Primary central nervous system (CNS) tumours, arising in the brain and spinal cord, are the leading cause of cancer-related deaths in children less than 15 years of age. Medulloblastomas and other primitive neuroectodermal tumours (PNETs) are the most common form of primary childhood brain tumours, accounting for 25-30% of cases. Despite notable recent advances in our understanding of the molecular genetic basis of malignancies, the pathogenesis of CNS PNETs remains obscure. To address this problem, we propose to apply a novel combinatorial approach for the identification of PNET tumour suppressor genes utilising both representational difference analysis (RDA) and microarray expression profiling. Data from this study will help to elucidate the molecular pathways that are compromised in the initiation and growth of PNETs. This information will have direct implications for the development of improved diagnostic and prognostic indicators necessary for the design of more effective therapeutic strategies for the treatment of PNET patients.Read moreRead less