Cell Cycle Regulation By The Epidermal Growth Factor Receptor
Funder
National Health and Medical Research Council
Funding Amount
$227,036.00
Summary
The rate of growth and death of normal cells is regulated through signals transmitted from the cell surface to the nucleus. In many human cancers the normal regulatory mechanisms are subverted, leading to uncontrolled growth of the cells. We aim to characterize the signals that are initiated by binding of the Epidermal Growth Factor (EGF) to its receptor and to understand how these signals influence the ability of the cell to divide and to survive. We will identify the pathways that contribute t ....The rate of growth and death of normal cells is regulated through signals transmitted from the cell surface to the nucleus. In many human cancers the normal regulatory mechanisms are subverted, leading to uncontrolled growth of the cells. We aim to characterize the signals that are initiated by binding of the Epidermal Growth Factor (EGF) to its receptor and to understand how these signals influence the ability of the cell to divide and to survive. We will identify the pathways that contribute to uncontrolled growth in tumor cells. This knowledge is necessary for the design of new therapies targetted to the molecular lesions which stimulate solid tumors.Read moreRead less
Determinants Of Insulin-like Growth Factor (IGF) Binding And Biological Actions Of IGF Binding Protein-6
Funder
National Health and Medical Research Council
Funding Amount
$399,750.00
Summary
Proteins are complex structures usually consisting of a number of distinct regions. Each of these regions may serve different roles. Insulin-like growth factors (IGFs) are important proteins involved in regulating the growth and other properties of cells. The actions of IGFs are in turn regulated by a family of binding proteins (IGFBPs). The aim of this project is to determine the range of actions of one of these IGFBPs and which parts of this IGFBP are involved in these actions. This may lead t ....Proteins are complex structures usually consisting of a number of distinct regions. Each of these regions may serve different roles. Insulin-like growth factors (IGFs) are important proteins involved in regulating the growth and other properties of cells. The actions of IGFs are in turn regulated by a family of binding proteins (IGFBPs). The aim of this project is to determine the range of actions of one of these IGFBPs and which parts of this IGFBP are involved in these actions. This may lead to new treatments for diseases in which cell growth is disturbed e.g. cancer and diabetes.Read moreRead less
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
Apoptosis is a fundamental mechanism in regulating normal development and preventing cancer. Cancer cells must avoid apoptosis and also adapt to harsh metabolic environments in order to survive in the absence of effective nutrient supply and to resist the action of certain drugs. This project will provide a detailed analysis of metabolic changes allowing cells to survive long periods when the apoptotic process is absent and nutrients are limiting.
I am a biochemist-cell biologist, working on the growth factors of the gastrointestinal tract. My discovery that the activity of non-amidated gastrins is dependent on ferric ions has opened several avenues for the development of new therapies for colorect
Development Of Modified IGF-binding Proteins As Novel Anti-cancer Chemotherapeutics
Funder
National Health and Medical Research Council
Funding Amount
$77,375.00
Summary
We propose to enhance the effectiveness of current anti-cancer treatments by co-administering a protein to sequester growth factors that promote the resistance of cancer cells to chemotherapy. We aim to achieve improved destruction of breast and colorectal cancers but with reduced adverse side effects. Our in vitro data show the effectiveness of this novel co-therapeutic which is a modified form of a natural carrier protein for these growth factors. This application seeks funding to enable proof ....We propose to enhance the effectiveness of current anti-cancer treatments by co-administering a protein to sequester growth factors that promote the resistance of cancer cells to chemotherapy. We aim to achieve improved destruction of breast and colorectal cancers but with reduced adverse side effects. Our in vitro data show the effectiveness of this novel co-therapeutic which is a modified form of a natural carrier protein for these growth factors. This application seeks funding to enable proof of concept in vivo in order to attract commercial funding for clinical trials.Read moreRead less
TAF8 is a small protein that is associated with the general transcriptional apparatus. TAF8 is not an essential part of the general transcriptional machinery, but rather a regulatory molecule that appears to dictate how the machinery is used to express different genes. The absence of TAF8 leads to expression of genes controlling cell death. Since the avoidence of cell death is essential to the development of cancer these results will lead to a better understanding of how cancer develops.