Signalling Networks As Targets For Antibody Therapy In Glioma.
Funder
National Health and Medical Research Council
Funding Amount
$526,683.00
Summary
Antibodies are a major component of the bodies immune system that bind (i.e. stick) to foreign substances such as viruses. Once bound, these antibodies can activate other parts of the immune system, which help destroy the foreign substance. Analogous to the situation above, a number of institutions are testing antibodies that bind to cancer cells, in order to determine if they are able to destroy these cells. It is also possible to generate antibodies that bind to receptors on the surface of can ....Antibodies are a major component of the bodies immune system that bind (i.e. stick) to foreign substances such as viruses. Once bound, these antibodies can activate other parts of the immune system, which help destroy the foreign substance. Analogous to the situation above, a number of institutions are testing antibodies that bind to cancer cells, in order to determine if they are able to destroy these cells. It is also possible to generate antibodies that bind to receptors on the surface of cancer cells and block their function. If you target a receptor critical to the growth or survival of a cancer cell in this way, then swtiching-off this signal may inhibit tumor growth. In this proposal we plan to test a panel antibodies that recognize receptors important to the growth of brain cancer. Two of these antibodies have been generated and the other two will be made as part of this proposal. A key aspect of this proposal will be testing these antibodies in combination to determine how many receptors need to be targeted in order to get complete tumor regressions in animal models. Overall this work will help us identify new therapeutic strategies for the treatment of brain cancer. Finally, we will also analyze the way different receptors interact together in brain cancer cells.Read moreRead less
Investigating The Action Of Clozapine On The Epidermal Growth Factor System: Implications For Antipsychotic Drug Action
Funder
National Health and Medical Research Council
Funding Amount
$364,535.00
Summary
Current treatments for schizophrenia are ineffective for up to half of sufferers leaving the toxic drug clozapine as the only resort. This project aims to investigate if the unique effectiveness of clozapine is due to a novel action in brain cells that we have identified. The project will delineate this mechanism and from this may lead to the development of a new way of treating schizophrenia and insights into the causes of this disorder.
Endocrine And Autocrine Regulation Of Breast Cancer Cell Growth By IGF Binding Protein-3 (IGFBP-3).
Funder
National Health and Medical Research Council
Funding Amount
$497,250.00
Summary
The insulin-like growth factor (IGF) system of growth factors and their regulatory proteins is essential for normal growth, but is also involved in a number of overgrowth disorders. Some clinical studies have shown that a high level of IGF-I in the blood increases the risk of breast cancer in some women, but if the protein which carries it in the circulation, IGFBP-3, is also high, the risk is reduced. It has therefore been suggested that IGFBP-3 may be useful in the treatment of breast cancer. ....The insulin-like growth factor (IGF) system of growth factors and their regulatory proteins is essential for normal growth, but is also involved in a number of overgrowth disorders. Some clinical studies have shown that a high level of IGF-I in the blood increases the risk of breast cancer in some women, but if the protein which carries it in the circulation, IGFBP-3, is also high, the risk is reduced. It has therefore been suggested that IGFBP-3 may be useful in the treatment of breast cancer. This is supported by laboratory studies showing that IGFBP-3 can inhibit cell division and stimulate cell death in many cell types, including breast cells. However, some cells are resistant to IGFBP-3 s inhibitory effects, and in some cases IGFBP-3 may stimulate cells to grow and divide. In fact, the amount of IGFBP-3 present in breast tumours is highest in the fastest growing, most malignant tumours, suggesting that IGFBP-3 may be stimulating their growth. Our laboratory data indicates that breast cancer cells which produce a high level of IGFBP-3 grow faster as tumours than cells which produce little or no IGFBP-3. We believe that this is because IGFBP-3 interacts with another hormone system which is involved in rapid tissue growth, the EGF system, and increases its ability to stimulate breast cells to divide. These observations raise a number of important questions: how does IGFBP-3 interact with the EGF system to stimulate tumour growth; does IGFBP-3 from the blood promote the growth of EGF-sensitive tumours; and can the interaction between IGFBP-3 and the EGF system be abolished, or switched from growth stimulatory to growth inhibitory, thus inhibiting tumour growth. Answering these questions will provide important new information regarding IGFBP-3 s stimulatory and inhibitory actions, and the role of endocrine IGFBP-3 in tumour growth, and have the potential to lead to the development of novel therapies involving IGFBP-3 for the treatment of overgrowth disorders.Read moreRead less
Development Of Novel EGFR Tyrosine Kinase Inhibitors For The Management Of Glioma, Head And Neck And Other Cancers
Funder
National Health and Medical Research Council
Funding Amount
$196,527.00
Summary
Abnormalities in EGF-EGFR family signalling pathways have been implicated in many human cancers including glioma, squamous cell carcinome of the head and neck, colon, ovary and prostate, and are associated with poor clinical prognosis, non-responsiveness to chemotherapy, and decreased survival. Inhibitors of these pathways would therefore be useful anti-cancer pharmaceuticals. This proposal outlines experiments aimed at understanding the role of the individual EGFR family members in controlling ....Abnormalities in EGF-EGFR family signalling pathways have been implicated in many human cancers including glioma, squamous cell carcinome of the head and neck, colon, ovary and prostate, and are associated with poor clinical prognosis, non-responsiveness to chemotherapy, and decreased survival. Inhibitors of these pathways would therefore be useful anti-cancer pharmaceuticals. This proposal outlines experiments aimed at understanding the role of the individual EGFR family members in controlling a complex signalling network, and the development of novel small molecule inhibitors of these pathways which are specific for individual EGFR family members and which should prove effective in the management of many forms of cancer. Additionally, the potential synergy of these inhibitors in combination therapy with other anti-cancer drugs and reagents which induce cell death will be investigated. These small molecule pharmaceuticals could easily be produced commercially, and taken into clinical trials, in Australia.Read moreRead less
Therapeutic Strategies In Epithelial Cancer Through Signalling Inhibition Of The Epidermal Growth Factor Receptor.
Funder
National Health and Medical Research Council
Funding Amount
$136,250.00
Summary
The growth of cancer cells is regulated by many factors, including the presence of growth receptors on the surface of cancer cells. The epidermal growth factor receptor (EGFR) is present in some normal tissues, but is highly expressed on many common cancers, including brain, breast, lung, head and neck, colon and prostate cancer. We are developing a number of potential therapeutic compounds that act by inhibiting the EGFR in cancer cells. These compounds include a novel monoclonal antibody that ....The growth of cancer cells is regulated by many factors, including the presence of growth receptors on the surface of cancer cells. The epidermal growth factor receptor (EGFR) is present in some normal tissues, but is highly expressed on many common cancers, including brain, breast, lung, head and neck, colon and prostate cancer. We are developing a number of potential therapeutic compounds that act by inhibiting the EGFR in cancer cells. These compounds include a novel monoclonal antibody that binds to EGFR and inhibits its function, and a small molecule that binds to a portion of the EGFR inside cancer cells and also inhibits function. Both of these compounds prevent tumour growth in laboratory studies. This project will examine the mechanisms of action of these compounds, and explore ways to improve their anti-cancer effect. We have also shown that combining these compounds with other therapeutics eg chemotherapy markedly enhances their anti-cancer effect. We will further examine the mechanisms of these effects, and also determine if radiotherapy has additive anti-cancer effects. These studies will provide a basis for improved therapies for cancers overexpressing the EGFR.Read moreRead less
Functional Analysis Of The Molecular Switch That Regulates ADAM10-mediated Cleavage Of RTK Ligands In Tumour Cells.
Funder
National Health and Medical Research Council
Funding Amount
$457,267.00
Summary
We have determined the structure and identified the region of the ADAM10 metalloprotease that controls its specific cleavage of ephrins. Ephrins and their receptors (Ephs) direct cell positioning during development by controlling cell-cell adhesion and repulsion. In adult tissues these proteins are present at low levels but are found at high levels in human cancers, including skin cancers, where they are thought to promote aggressive tumours. The switch to cell repulsion occurs by cleavage of th ....We have determined the structure and identified the region of the ADAM10 metalloprotease that controls its specific cleavage of ephrins. Ephrins and their receptors (Ephs) direct cell positioning during development by controlling cell-cell adhesion and repulsion. In adult tissues these proteins are present at low levels but are found at high levels in human cancers, including skin cancers, where they are thought to promote aggressive tumours. The switch to cell repulsion occurs by cleavage of the ephrin by ADAM10 which also functions in other cancer promoting events by cleaving growth factors. Our structure reveals how Eph-bound ephrin is specifically targeted by ADAM. We will now determine the relevance of this mechanism for other ADAM10 targets, and design drugs to bind this region and inhibit ADAM function, which we will test in assays measuring tumour cell movement and growth, with the aim of developing therapies to block cancer progression.Read moreRead less
Tumour cells are often characterized by defects in signaling pathways. One of the most important signaling cascades involved in the development of cancer is the EGFR-Ras-MAPK pathway. EGFR is often overexpressed in breast cancer, leading to enhanced Ras signaling (hyperactive Ras) and cell transformation. The proposed project aims to identify the molecular mechanisms that can downregulate hyperactive Ras and will make a valuable contribution to our understanding of EGFR-Ras related cancers.
New Mediators Of GPCR-growth Factor Receptor Transactivation
Funder
National Health and Medical Research Council
Funding Amount
$607,842.00
Summary
Hormones bind to receptors on the surface of cells. Receptors can modify each other’s function and this “cross-talk” is important for the receptors for a peptide hormone (termed angiotensin) and a growth factor receptor (EGFR), which are major regulators of the cardiovascular system. We have identified a number of mediators of the angiotensin-EGFR crosstalk and this current grant aims to use molecular and cellular and in vivo approaches to examine the molecular basis of their actions.
Mechanism Of Epidermal Growth Factor Receptor Transactivation
Funder
National Health and Medical Research Council
Funding Amount
$578,268.00
Summary
This application examines the cellular events that control heart growth in response to angiotensin, a hormone linked to heart failure. We believe that the same cell processes are also involved in cancer cell growth and by understanding the mechanism by which angiotensin promotes growth, better therapies against human cardiovascular disease and its relationship to uncontrolled growth will evolve.