Only recently has it emerged that our cells have a built-in backup mechanism that instructs cells to die in extreme cases, such as when viruses have hijacked a cell. A misfiring backup mechanism is thought to underlie a number of human diseases, including inflammatory disease. Our investigation will establish a starting point for the development of novel anti-inflammatory drugs.
Characterising The Novel Signalling Mechanism For A New Interferon
Funder
National Health and Medical Research Council
Funding Amount
$525,485.00
Summary
We have discovered a new regulatory protein called interferon epsilon, made in the female reproductive tract and is crucial for protection against bacterial( Chlamydia) and viral (Herpes Simplex Virus) infections. However, we are yet to understand how it interacts with target cells. This grant will study how IFN? binds to cells and the nature of the signals it transmits. This will help us understand its role in disease and its clinical potential
SETD7-dependent Regulation Of Hippo/YAP And Wnt/beta-catenin Pathways In The Intestine
Funder
National Health and Medical Research Council
Funding Amount
$601,950.00
Summary
Colon cancer accounts for approximately 10% of all cancer-related deaths in Australia. One of the most common causes of colon cancer is a mutation in a signalling pathway called the Wnt/beta-catenin pathway. Despite this knowledge, there are currently no drugs that directly target this pathway to treat colon cancer. We have now identified a new way to control this pathway and have developed a potent and specific drug to block activation of this pathway.
Location, Location, Location: Sub-cellular Specific Targeting Of JNK As A Novel Therapy In Breast Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$633,755.00
Summary
The ‘triple negative’ breast cancer subtype is the most aggressive form of breast cancer, and unlike other subtypes, there are no drugs to specifically this subtype. While many potential drug targets have been identified, they cannot be utilised clinically because of other beneficial roles within the body. We are now deploying our innovative experimental platforms to specifically target the tumour promoting functions of a protein known as ‘JNK’, whilst retaining its beneficial functions.
Understanding SOCS3 Inhibition Of JAK Activity In Myeloproliferative Disorders
Funder
National Health and Medical Research Council
Funding Amount
$524,820.00
Summary
The myeloproliferative disorders are diseases in which abnormal blood cell development leads to a risk of stroke, thrombosis, hemorrhage and leukemia. Remarkably, three of these disorders are caused by an error in a single enzyme that makes it over active. The enzyme, JAK2, controls how cells respond to hormone-like messengers called cytokines. We are investigating a cellular pathway that inhibits this enzyme in order to understand the progression and potential treatment of the disorders.
Cellular Regulation Of Receptor Signalling And Cytokine Responses
Funder
National Health and Medical Research Council
Funding Amount
$859,288.00
Summary
Cell surface receptors and signalling pathways elicit the release of cytokines, or chemical messengers, to control inflammation, which is the body’s response to infection or danger. We have discovered a new signalling pathway that can turn off inflammation and help prevent inflammatory disease. Our studies will now define the molecular details of this pathway and show how new and existing drugs targeting this pathway can be optimally used to treat inflammation and cancer.
Skeletal Muscle Signal Transduction Related To Exercise, Metabolic Disease And Human Health
Funder
National Health and Medical Research Council
Funding Amount
$557,298.00
Summary
Exercise is one of the best prevention and treatment strategies for all major human diseases. Despite these well documented advantages, we still do not know exactly how exercise produces these benefits at the molecular level. A comprehensive understanding of this will lead to new avenues to treat many diseases. This project will monitor thousands of molecular changes that occur in human muscle biopsies following exercise and create the world’s first molecular blueprint of exercise.
The cell is the building block of life. This proposal focusses on the surface of the cell, the plasma membrane, and specialised structures called caveolae that are an abundant feature of animal cells. Altered caveolae are a feature of many human disease conditions. In this proposal we will address the function of caveolae. We will test the idea that proteins are released from caveolae into the cell when cells are stressed forming a novel signalling pathway disrupted in disease.
Do Synaptic-like Mechanisms Control Insulin Secretion?
Funder
National Health and Medical Research Council
Funding Amount
$593,235.00
Summary
An estimated 415 million people world-wide were diagnosed with diabetes in 2015. One of the causal factors in disease is the dysregulation of insulin secretion. We have developed new techniques to study insulin secretion that has led us to propose a new model for secretory control. This proposal sets out experiments to critically test this model. The outcomes could have wide-reaching impact on understanding and for future treatment and prevention of the diabetes.
Molecular Dissection Of Aberrant IL6/gp130 And TGF? Signaling In The Pathogenesis Of Interstitial Pneumonitis
Funder
National Health and Medical Research Council
Funding Amount
$590,009.00
Summary
Interstitial pneumonia (IP) is frequently observed in the group of lung diseases which affect the transfer of oxygen from inhaled air into the bloodstream. Current treatments for these diseases only effectively manage patient’s symptoms but don’t cure patients of IP. We have developed a strategy to identify the exact cell type responsible for an acute IP and the molecular intermediates that may offer novel treatments and pave the way for a possible cure for this disease.