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
Epigenetic Regulation Of Self Renewal And Lineage Commitment In Haematopoiesis
Funder
National Health and Medical Research Council
Funding Amount
$1,104,930.00
Summary
The process by which all our mature blood cells are produced and sustained remains largely unknown. Underpinning the cell fate decisions made through blood cell development is the tightly regulated expression of key genes and proteins that subsequently direct the process of blood cell differentiation. This project will aim study and uncover the molecular mechanisms that coordinate the key gene expression programs that lead to normal blood cell development.
Activation And Inhibition Of The Plasminogen/Plasmin System
Funder
National Health and Medical Research Council
Funding Amount
$800,663.00
Summary
Plasmin is crucial enzyme present in blood plasma that functions in clot dissolution, inflammation, tissue remodeling, and wound healing. We aim to study how this enzyme system is controlled, by studying its interaction with receptors, co-factors and inhibitors. The information we gain will help drive the development of new generation therapeutics for the fine control of plasmin function in clotting disease, bleeding and inflammation.
Discovery And Characterisation Of Novel Tick Evasins As Inhibitors Of Chemokine-mediated Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$654,847.00
Summary
An important aspect of inflammatory diseases is the migration of white blood cells into the affected tissues. This is controlled by a group of proteins called chemokines. Ticks, which live on mammalian hosts, produce proteins called evasins, which interact with host chemokines and thereby prevent inflammatory responses. This project will discover new tick evasins, study their chemokine interactions and investigate their ability to block inflammation in allergic asthma.
Cell Surface Lectin Receptors For Attachment And Entry Of Influenza Viruses Into Cells Of The Innate Immune System
Funder
National Health and Medical Research Council
Funding Amount
$530,094.00
Summary
Influenza virus is a leading cause of respiratory infection and death worldwide. Infection of humans is initiated when the virus contacts cells lining the respiratory tract. Infection of epithelial cells leads to virus amplification whereas infection of immune cells results in virus destruction. Despite extensive research efforts, it is not clear how the virus infects these cells. This project aims to identify receptors on human cells used by influenza virus to attach to and infect immune cells.
Novel Perspectives On The Function Of AB5 Toxin B Subunits
Funder
National Health and Medical Research Council
Funding Amount
$1,041,896.00
Summary
AB5 toxins are important virulence factors of pathogenic bacteria. They comprise pentameric B subunits that bind to target cell surfaces and catalytic A subunits that damage host cell functions. This proposal examines a new paradigm wherein the B subunits are significant contributors to cell damage. We will characterize the cytopathic properties of diverse B subunits, particularly those of emerging toxins. This will provide novel insights into pathogenesis and inform development of therapeutics.
The Impact Of The Changes In Levels Of Adhesion Molecules NCAM2 And DsCAM On Synapse Formation And Function: Implications For Down Syndrome
Funder
National Health and Medical Research Council
Funding Amount
$334,053.00
Summary
Down syndrome (DS) results from triplication of chromosome 21 and leads to mental retardation, molecular mechanisms of which are not understood. We found that two proteins, NCAM2 and DSCAM, encoded at chromosome 21 are highly expressed in synapses. Synapses are specialized contacts between neurons which allow neurons to process information in the brain. In this project we will test a hypothesis that changes in NCAM2 and DSCAM expression result in synapse abnormalities observed in DS.
Transplantation of pancreatic islets is the only cure for type 1 diabetes (T1D). Unfortunately, many of the transplanted islet cells die quickly due to an inadequate supply of blood. Herein, we investigate a novel cell surface protein for its role in islet and blood vessel survival and function. Furthermore, we use nanotechnology to provide said protein to the islet cells during transplantation for increased survival and function. Ultimately, this work may cure more patients with diabetes.
Regulation Of ICAM-1 Expression In Human Retinal Endothelial Cells
Funder
National Health and Medical Research Council
Funding Amount
$565,967.00
Summary
Posterior uveitis is an inflammation that occurs within the eye and may result in blindness. Present treatments are not directed specifically at the inflamed tissues, and they may be ineffective and cause toxicity. This research aims to identify molecules controlling the entry into the eye from the bloodstream of the white blood cells that cause the disease. The results should suggest new targets for safer drugs to treat patients with posterior uveitis.
We are seeking to understand how the protein ADAR1 functions. When it is mutated, ADAR1 can cause a range of diseases, most notably in a subset of Aicardi-Goutieres syndrome (AGS) patients, an autoimmune disorder affecting the brain, immune system, and skin. We have identified how we think that changes in ADAR1 activity may ultimately cause disease. This application will allow us to test this mechanism experimentally.