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.
The pathology of many acute and chronic diseases associated with the inappropriate activation of genetically encoded programmed cell death pathways, such as sepsis, stroke, diabetes and neurodegeneration, is linked to detrimental inflammation. This project will accurately define at the molecular level how programmed cell death triggers inflammatory responses, and use this knowledge to test novel and next-generation therapeutic strategies in inflammatory-driven diseases.
Regulation Of Interleukin-1? Activation In Inflammatory Diseases
Funder
National Health and Medical Research Council
Funding Amount
$624,429.00
Summary
IL-1? protein is required to combat infection but also contributes to inflammatory diseases, such as Rheumatoid arthritis and diabetes. Understanding how IL-1? is produced is therefore critical to the development of better therapeutics for these conditions. We have identified a new pathway involving the protein RIP3 that can cause IL-1? activation. This project will examine how this pathway is molecularly regulated and determine its importance in inflammatory disease models.
Analysis Of The Functions Of A Novel Class Of Ubiquitin E3 Ligases In TNF Signalling In Vivo
Funder
National Health and Medical Research Council
Funding Amount
$568,861.00
Summary
The aim of this project to discover the role of a novel ubiquitin ligase complex that regulates TNF superfamily signalling. It will increase understanding of the TNF pathway and improve our ability to manipulate it pharmacologically, or otherwise, in the large number of debilitating human diseases including Rheumatoid Arthritis and Crohn's disease that result from aberrant TNF signalling. Because of the role of TNF in tumorigenesis it may also contribute to novel anti-cancer treatments.
Role Of Sphingolipid Signalling In Hepatic Insulin Resistance And Its Application In Prediction Of Risk For Type 2 Diabetes And Prediabetes
Funder
National Health and Medical Research Council
Funding Amount
$563,305.00
Summary
Type 2 diabetes is expected to reach epidemic proportions in the coming decades. Prediabetes is usually unrecognized and constitutes a major public health concern that needs earlier interventions, because the majority of prediabetic subjects proceed to T2D. We have identified an enzyme that plays an important role in insulin signalling. The possibility is that the level or activity of this enzyme is a potential biomarker of the prediabetes state and could be also used as a target
Control Of The Ras/Erk Signaling Pathway By The Brahma Chromatin-remodeling Complex
Funder
National Health and Medical Research Council
Funding Amount
$524,820.00
Summary
Hormones bind and initiate molecular signals within cells to proliferate or change into specific cell types. This is important for growth and development of different tissues. A pathway which is critical for transmitting the effects of hormones in cells is the Ras pathway. New studies by the applicants indicate that the Brahma complex, a molecule important in controlling the levels of proteins in cells, activates the Ras pathway. This project will define how Brahma controls the Ras pathway.
Interleukin-1β Biology: Mechanisms Of Regulation, Activation And Secretion
Funder
National Health and Medical Research Council
Funding Amount
$641,979.00
Summary
The protein called intelreukin-1 (IL-1) is required to fight off invading pathogens but more recently has been implicated as contributing to diverse diseases characterised by excessive inflammation, such as arthritis, gout, atherosclerosis and even cancer. This project aims to understand how IL-1 is made within cells and then activated to cause inflammation, which will enable these processes to be therapeutically targeted.
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
The Role Of Cell Death Pathways In Inflammation And Pathogen Infection
Funder
National Health and Medical Research Council
Funding Amount
$415,218.00
Summary
Cell death and inflammation are essential for protection against pathogen infection but can also cause human diseases. Inflammation caused by the IL-1? protein has been implicated in diseases such as type II diabetes, arthritis and cancer. This project aims to elucidate how IL-1? protein activity is regulated at the molecular level. It also seeks to understand how the pathogen responsible for Legionnaires’ disease manipulates cell death to allow for successful invasion of the human host.
The Emergence Of Dead Enzymes As Signal Transducers And Therapeutic Targets
Funder
National Health and Medical Research Council
Funding Amount
$463,652.00
Summary
The cells within our bodies are constantly being replenished by new cells. Removal of old cells is typically fast and without fanfare. However, in some cases, cell death can be used to evoke an inflammatory response. My work examines the molecular details of how this happens and how we might advance our knowledge to develop novel drugs to prevent inflammatory diseases, such as Crohn's disease and psoriasis.