Apo2L/TRAIL Killing Of Tumour Cells And The Role Of Inhibitor Of Apoptosis Proteins
Funder
National Health and Medical Research Council
Funding Amount
$390,321.00
Summary
Melanomas and Gliomas are tumour types that respond poorly to current treatments. Current treatments are not only sometimes ineffective, but also unpleasant and may cause co-lateral damage. We will test 2 new targetted anti-cancer treatments, that so far appear to have minor side effects in small animal models, on these difficult to treat tumour types to see if and how they kill them. We also want to know whether these independent treatments can work together to kill tumours more effectively. Al ....Melanomas and Gliomas are tumour types that respond poorly to current treatments. Current treatments are not only sometimes ineffective, but also unpleasant and may cause co-lateral damage. We will test 2 new targetted anti-cancer treatments, that so far appear to have minor side effects in small animal models, on these difficult to treat tumour types to see if and how they kill them. We also want to know whether these independent treatments can work together to kill tumours more effectively. Although we will not personally test these drugs in clinical settings, these drugs or similar are currently in preclinical and clinical trials. This means that understanding how these drugs function is of paramount importance and may result in better clinical trials and possibly more rapid acceptance of the use of these drugs in patients.Read moreRead less
Regulation Of TNF Expression In Inflammation And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$728,447.00
Summary
By studying a spontaneous mutation in mice, we have found an error in the TNF gene (a major factor in many inflammatory diseases) that causes severe arthritis, heart valve disease and gut inflammation. We have also identified new regulators of TNF expression, which might be useful therapeutic targets to limit inflammation. We intend to study the role of these regulators in controlling the expression of TNF, and the link between chronic inflammation and the development of cancer.
Focus On Molecular Mechanisms By Which Cells Kill Themselves.
Funder
National Health and Medical Research Council
Funding Amount
$4,366,120.00
Summary
The main aim of this Fellowship is to enable me to further expand, enhance, and strengthen the study of cell death at La Trobe. I wish to establish a centre for bio-medical research at La Trobe that acts collaboratively with local, national and international researchers to conduct basic research and harness the results to develop new therapies. Since moving to La Trobe in January 2006 I have been able to build and expand the critical mass of cell death researchers by recruiting laboratory heads, ....The main aim of this Fellowship is to enable me to further expand, enhance, and strengthen the study of cell death at La Trobe. I wish to establish a centre for bio-medical research at La Trobe that acts collaboratively with local, national and international researchers to conduct basic research and harness the results to develop new therapies. Since moving to La Trobe in January 2006 I have been able to build and expand the critical mass of cell death researchers by recruiting laboratory heads, post-doctoral fellows and several PhD and Honours students. These have joined post-docs, who moved with me from WEHI. We continue to have very close links with the WEHI Cell Death NHMRC Program Grant I remain a Chief Investigator on that grant, renewed in 2006. Because many of the WEHI facilities are on the La Trobe campus at Bundoora, my lab has better access to new mouse strains, monoclonal antibody production, medicinal chemistry, and genetically modified mouse production than those at WEHI in Parkville. This Fellowship will allow me to accelerate the building of a research group that will make substantial collaborative contributions to the basic scientific study of the mechanisms of cell death, to identification of therapeutic targets, to testing and validation of novel pharmaceutical compounds in vitro, and to facilitate clinical trials in Australia. Australian research on the basic mechanisms of cell death is not just of international standard, it is world leading. While it is important that our research is funded to maintain this position, we do not see ourselves as competing with overseas groups, but participating in a joint scientific effort. The translation of basic findings into new treatments will require the input from pharmaceutical industry that Australia lacks. To shorten the time for clinical translation, and to benefit from these developments, we must retain our research credentials, and remain collaboratively integrated with the international effort.Read moreRead less
The Role Of Necroptosis In Inflammatory Skin Diseases
Funder
National Health and Medical Research Council
Funding Amount
$548,690.00
Summary
Diseases associated with exaggerated inflammation account for a large toll of human disease. We have recently described how mice with a mutation in the Sharpin gene, that causes the chronic proliferative dermatitis phenotype (cpdm), can be rescued by crossing these mice to TNF (Tumor Necrosis Factor) knock-out mice. Our findings suggest that TNF induced cell death, rather than TNF induced cytokine production, may be at the root of many inflammatory diseases and we aim to test this hypothesis in ....Diseases associated with exaggerated inflammation account for a large toll of human disease. We have recently described how mice with a mutation in the Sharpin gene, that causes the chronic proliferative dermatitis phenotype (cpdm), can be rescued by crossing these mice to TNF (Tumor Necrosis Factor) knock-out mice. Our findings suggest that TNF induced cell death, rather than TNF induced cytokine production, may be at the root of many inflammatory diseases and we aim to test this hypothesis in this proposal.Read moreRead less
What Is The Molecular Mechanism Underlying Cell Death By Necroptosis?
Funder
National Health and Medical Research Council
Funding Amount
$653,742.00
Summary
Recently, we and others have demonstrated that part of the MLKL protein is able to kill cells. This process is known to cause a number of pathologies, including those arising from stroke. Blocking this type of cell death has thus emerged as an attractive therapeutic strategy. However, precisely how MLKL kills cells remains unclear and controversial. In this project, we will resolve these controversies with the goal of an increased fundamental understanding to aid drug discovery.
Mitochondria are both the powerhouses and the poison cupboard of our cells. They have evolved from bacteria and still possess the ability to grow and divide. Unregulated mitochondrial division is seen in dying cells and in cells from patients with neurodegenerative diseases. We have identified new molecules involved in mitochondrial division and are investigating how they function in normal and unhealthy cells.
Role Of Bak And Bax Membrane Anchors In Targeting And Apoptotic Pore Formation.
Funder
National Health and Medical Research Council
Funding Amount
$352,319.00
Summary
In cancer cells the normal process of cell death (called apoptosis) is defective, helping abnormal cells to grow and multiply unchecked. The Bak and Bax proteins are members of the Bcl-2 family of apoptosis regulators, and play a pivotal role in mediating cell death. By defining how these proteins form a pore in mitochondria, the point of no return in cell death, will help the development of novel anti-cancer agents that target the Bcl-2 family in general, and Bak and Bax in particular.
Dynamics of mitochondrial cristae in life and death . This application seeks to use innovative approaches to address how massive structural arrangements in mitochondria are dealt with during normal cell function, and modulated during cell death. The study builds on discoveries made by a team with world-leading expertise in mitochondrial biology and cell death – and brings innovative, cutting-edge techniques in cell biology, proteomics and imaging. The findings will provide new fundamental insig ....Dynamics of mitochondrial cristae in life and death . This application seeks to use innovative approaches to address how massive structural arrangements in mitochondria are dealt with during normal cell function, and modulated during cell death. The study builds on discoveries made by a team with world-leading expertise in mitochondrial biology and cell death – and brings innovative, cutting-edge techniques in cell biology, proteomics and imaging. The findings will provide new fundamental insights into cellular organisation and uncover new principles of communication. Trainees will gain skills in technologies that are highly translatable and in demand in other areas of scientific endeavours. As such the expertise obtained will expand Australian research capabilities.
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Investigation of the mechanisms underlying successful placentation. The overall aim of this project is to provide novel insights into the basic cellular processes that underpin placental development and to improve our ability to manipulate mammalian reproduction, both human and animal. The placenta is critical for intrauterine development because it determines the level of nutrition, oxygenation and maternal tolerance to the developing foetus. The project intends to explore the role of prorenin ....Investigation of the mechanisms underlying successful placentation. The overall aim of this project is to provide novel insights into the basic cellular processes that underpin placental development and to improve our ability to manipulate mammalian reproduction, both human and animal. The placenta is critical for intrauterine development because it determines the level of nutrition, oxygenation and maternal tolerance to the developing foetus. The project intends to explore the role of prorenin and its receptor as a novel mechanism driving placentation. Applications for expected project outcomes may include improved breeding of threatened animal species and economically valuable domestic animals as well as improved health care and fertility control for domesticated pets and feral animals. Read moreRead less