Mapping The TNF Pathway: A Qualitative And Quantative Molecular Analysis Of The Components And Post-translational Modifications Involved In Physiological And Pathological TNFR1 Signalling
Funder
National Health and Medical Research Council
Funding Amount
$636,258.00
Summary
TNF is a master regulator of the inflammation response and dysregulated TNF signalling causes many human diseases. We will use a cutting edge mass spectrometry technique that we have developed to analyse molecules required for TNF signalling. Understanding how the TNF signalling works in all cell types and with different forms of ligands will open up therapeutic opportunities to selectively target TNF signalling in inflammatory diseases, such as Rheumatoid Arthritis and Cancer.
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
The Role Of Necroptosis In Development, The Immune System And Autoimmune Pathology
Funder
National Health and Medical Research Council
Funding Amount
$454,105.00
Summary
Programmed cell death plays critical roles in development and cell-turnover in the adult. Defects in this process can cause cancer or autoimmune diseases. We will use genetic and biochemical approaches to define the individual roles of necroptosis, a newly described cell death process, and those overlapping with apoptosis in normal development and cell-turnover as well as in cancer and autoimmune diseases. The objective of this work is to identify potential targets for therapeutic intervention i ....Programmed cell death plays critical roles in development and cell-turnover in the adult. Defects in this process can cause cancer or autoimmune diseases. We will use genetic and biochemical approaches to define the individual roles of necroptosis, a newly described cell death process, and those overlapping with apoptosis in normal development and cell-turnover as well as in cancer and autoimmune diseases. The objective of this work is to identify potential targets for therapeutic intervention in cancer or immunopathology.Read moreRead less
Investigating The Contribution Of Distinct Mitochondrial Cell Death Pathways To Platelet Survival And Function
Funder
National Health and Medical Research Council
Funding Amount
$635,247.00
Summary
Platelets are small blood cells that form clots to stop bleeding. We have found new and unexpected roles for 2 distinct pathways that regulate cell death in the process of blood clot formation. We will study the precise role of these pathways in blood clot formation, and determine whether they may also regulate the survival of platelets stored by the blood bank for transfusion. These studies will provide new insight into the role of cell death pathways in blood clot formation, and may help to im ....Platelets are small blood cells that form clots to stop bleeding. We have found new and unexpected roles for 2 distinct pathways that regulate cell death in the process of blood clot formation. We will study the precise role of these pathways in blood clot formation, and determine whether they may also regulate the survival of platelets stored by the blood bank for transfusion. These studies will provide new insight into the role of cell death pathways in blood clot formation, and may help to improve current protocols for storing plateletsRead moreRead less
Understanding The Activation Of Pro-apoptotic Bcl-2 Family Proteins For The Development Of Modulators Of Apoptosis
Funder
National Health and Medical Research Council
Funding Amount
$627,805.00
Summary
Programmed cell death is a process by which the body protects against rogue cells, eg cells potentially cancerous or infected by viruses. Dysregulation of the process occurs in cancer and can also lead to degenerative diseases. This work will discover the molecular mechanisms by which key proteins control the life/death switch in cells and will develop compounds capable of regulating their activity, setting the foundation for developing therapeutics aimed at regulating these processes.
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.
Tipping The Inflammatory Response Of TNF In Favour Of Death
Funder
National Health and Medical Research Council
Funding Amount
$660,403.00
Summary
Cancer cells promote their own growth by exploiting the body’s natural defence. This natural defence is termed inflammation and cancer cells utilise inflammation to grow and metastasise. We have identified two exciting proteins that are required for cancer cells to stay alive. Under conditions that drive inflammation, if we remove these proteins cancer cells now activate their death signals and die. Our discovery provides new opportunities on fundamental ways by which cancer cells can be killed.
Targeting Necroptosis Signalling To Counter Stroke-induced Brain Injury
Funder
National Health and Medical Research Council
Funding Amount
$605,809.00
Summary
The origins of the brain injury that arises from stroke remain a matter of enormous interest. Our work suggests that a poorly understood form of cell death, termed necroptosis, contributes to injury to the brain following stroke. In addition to developing an advanced understanding of this process, we will use drugs developed at the Walter and Eliza Hall Institute to test whether blocking this process might be a plausible therapeutic strategy in stroke patients.
The Splanchnic Anti-inflammatory Pathway: The Real Inflammatory Reflex
Funder
National Health and Medical Research Council
Funding Amount
$613,466.00
Summary
The brain strongly influences immune function through a neural reflex: the inflammatory reflex. This reflex was recently revised and a new model for its efferent arm, in stark contrast with the existing version, was proposed: the motor pathway of this reflex is purely sympathetic and travels through the splanchnic nerves. The aim of this project is to define the peripheral and central neural pathway of this reflex. Future improvements in health and medical knowledge will follow
Understanding The Biological Regulation Of MLKL And Its Role In Necroptotic Cell Death
Funder
National Health and Medical Research Council
Funding Amount
$656,979.00
Summary
Cell death is a normal process that permits the growth and defence of our vital tissues. One kind of cell death, necroptosis, is characterized by the swelling and bursting of cells. When cells ‘explode’ in this uncontrolled way they provoke an inflammatory response. This may be a factor behind illnesses ranging from colitis to cardiovascular disease. Understanding necroptotic cell death may pave the way for new therapies for those that suffer from these devastating conditions.