Next-generation Sequencing Of Candidate Ovarian Tumour Suppressor Genes
Funder
National Health and Medical Research Council
Funding Amount
$101,899.00
Summary
In Australia in 2001 there were approximately 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 are inactivated by loss of a copy or mutation. We aim to find these genes using new DNA sequencing techniques.
Control Of Salvador-Warts-Hippo Pathway Activity In Drosophila And Mammals
Funder
National Health and Medical Research Council
Funding Amount
$514,048.00
Summary
The primary function of the Salvador-Warts-Hippo (SWH) pathway is to dictate the appropriate size of organs in developing animals. Deregulation of this pathway results in vastly overgrown organs and can lead to the formation of cancer in humans. Our study will provide important insights into how the size of organs are controlled during development by identifying new SWH pathway components. We will also increase understanding of diseases that arise due to aberrant tissue growth, such as cancer.
Examination Of The Mechanism By Which The Salvador/warts/hippo Complex Restricts Cell Growth And Number
Funder
National Health and Medical Research Council
Funding Amount
$283,767.00
Summary
Cancer is a disease that results from the generation of surplus cells. These extra unwanted cells are produced as a result of excess cell proliferation and impaired programmed cell death. These important processes can be deregulated in cancers as a result of mutations in many different genes. Many genetic lesions have been reported in different types of cancers but many of the genes that are mutated in these diseases have yet to be identified. To isolate new genes involved in cancer we created r ....Cancer is a disease that results from the generation of surplus cells. These extra unwanted cells are produced as a result of excess cell proliferation and impaired programmed cell death. These important processes can be deregulated in cancers as a result of mutations in many different genes. Many genetic lesions have been reported in different types of cancers but many of the genes that are mutated in these diseases have yet to be identified. To isolate new genes involved in cancer we created random mutations in the vinegar fly, Drosophila, and tested their ability to cause solid cancers. Drosophila is an excellent model organism for this study because many of the pathways that are often perturbed in cancer are conserved between humans and flies. Using this approach we identified several known and novel genes that cause cancerous growths. By studying the human counterparts of these novel genes we identified a potential role for some of these genes in the generation of human cancer. Three of these genes, hippo, salvador and warts, appear to act in concert to restrict cell number. In this study we aim to understand the mechanism by which these genes restrict cell number. To do this we will analyze how the activity of this pathway is controlled and in what tissues it functions. We also plan to discover other key components of this pathway that function downstream of hippo, salvador and warts. To perform these experiments we will use a variety in vitro biochemical techniques as well as experiments in tissue culture cells. We will then verify the results of these experiments in the context of a whole animal. By performing these experiments we hope to gain greater insight into the genesis of cancer.Read moreRead less
Identifying Long-range Regulatory Elements Of The Breast Cancer Susceptibility Gene, BRCA1
Funder
National Health and Medical Research Council
Funding Amount
$612,842.00
Summary
BRCA1 is a breast cancer susceptibility gene implicated in both familial and sporadic breast cancers. The mechanisms controlling BRCA1 expression are poorly understood. We will identify DNA sequences critical for regulation of the BRCA1 gene. We hypothesise that these regions are mutational hot spots conferring an increased breast cancer risk. A better understanding of the pathways responsible for promoting BRCA1-associated breast cancer will provide important diagnostic and treatment targets.
I am a developmental cell biologist and molecular geneticist focusing on mechanisms controlling cell proliferation and modelling the development of cancer in the vinegar fly, Drosophila.
Inhibition Of Retinoblastoma Protein Degradation By Interaction With The Serpin PAI-2 Via A Novel Consensus Motif
Funder
National Health and Medical Research Council
Funding Amount
$463,500.00
Summary
Plasminogen activator inhibitor-2 (PAI-2) has previously been shown to inhibit the activity of enzymes outside the cell that are involved in blood clotting and cell migration. We have discovered that this activity is probably not the major role of PAI-2. PAI-2 also has a function inside cells that protect and increases the activity of an important tumour suppressor protein called the retinoblastoma tumour suppressor protein (Rb). Rb is involved in many cellular functions such as, cell death, cel ....Plasminogen activator inhibitor-2 (PAI-2) has previously been shown to inhibit the activity of enzymes outside the cell that are involved in blood clotting and cell migration. We have discovered that this activity is probably not the major role of PAI-2. PAI-2 also has a function inside cells that protect and increases the activity of an important tumour suppressor protein called the retinoblastoma tumour suppressor protein (Rb). Rb is involved in many cellular functions such as, cell death, cell differentiation, cell growth, and most importantly prevention of cancer development. Rb is attacked and destroyed by several viruses which causes cells to become cancerous. This grant seeks to fully understand how PAI-2 protects and interacts with Rb. We have already found a new site on Rb to which PAI-2 binds. This site is also used by other proteins in the cell as well as disease causing virus proteins. Examples of these proteins are BRCA1, a protein involved in breast cancer development, and EBNA6, a protein from Epstein Barr virus that causes glandular fever and tumours. We have also found, and seek to explore further, how PAI-2 reverses the activities of the cervical cancer causing proteins of the human papilloma virus. Although at an early stage, these studies may lead to the development of new therapeutic drugs based on PAI-2 for the treatment of various types cancers or warts caused by HPV. Analysing the activity of PAI-2 inside cells will have implications for understanding much of the confusing scientific literature on PAI-2 and will provide a better comprehension of the role of PAI-2 in inflammation, cell differentiation, wound healing and cancer. For example it has long been known that the presence of PAI-2 in cancerous tumours is linked with a better prognosis, an activity that can now be understood in terms of the PAI-2 interaction with Rb. This new understanding may lead to the development of PAI-2 based prognostic assays for cancer.Read moreRead less
An understanding of the way cells control their complex internal circuitry is relevant to diseases like cancer and leukemia. The main focus of this project is a cellular regulator we identified several years ago called BORIS. Normally dormant in all cells outside the male reproductive organs, BORIS is reactivated in many cancers. We will study the network of factors perturbed when BORIS becomes inappropriately active in cancer cells. Ultimately this project may lead to new treatments for cancer.