Plasmin is a complex enzyme that performs major roles in removal of blood clots, wound healing and in tumor metastasis. Here we will understand how plasmin function is regulated at the molecular level. These key insights will be of future use in the development of therapeutics targeting the plasmin system in cancer and clotting diseases.
Targeting Iron Piracy From Host Proteins By Neisseria And Haemophilus Spp. For The Development Of Novel Antimicrobials
Funder
National Health and Medical Research Council
Funding Amount
$645,205.00
Summary
The bacteria that cause the sexually transmitted infection gonorrhoea and meningococcal disease are a serious health concern. In order to cause disease, these bacteria must obtain the nutrient iron from our bodies. This proposed research will use cutting edge technologies to understand on a molecular level how these bacteria obtain iron during infection. It will then apply this knowledge to develop molecules that prevent these bacteria from obtaining iron, as a means of treating these diseases.
Structural studies of host-pathogen interactions. The host-pathogen interface represents a major frontier for biomedical and biotechnological applications. This project aims to understand at the atomic level two such interfaces. In the first instance, the project will elucidate the molecular basis for inhibition of premature host cell death by poxviruses, in particular vaccinia and variola virus, the causative agent of smallpox. In the second instance, the aim is to understand how defensins, a ....Structural studies of host-pathogen interactions. The host-pathogen interface represents a major frontier for biomedical and biotechnological applications. This project aims to understand at the atomic level two such interfaces. In the first instance, the project will elucidate the molecular basis for inhibition of premature host cell death by poxviruses, in particular vaccinia and variola virus, the causative agent of smallpox. In the second instance, the aim is to understand how defensins, a major class of host defence molecules, recognise microbial targets such as fungi, and exert a potent antimicrobial effect. Understanding the precise molecular mechanisms operating at both these host-pathogen interfaces this will provide novel avenues for the design of antiviral and antimicrobial agents.Read moreRead less
Structural Studies On Human Glutamic Acid Decarboxylase
Funder
National Health and Medical Research Council
Funding Amount
$380,902.00
Summary
Mental health problems are a global issue and are subject to ongoing medical research. We study glutamic acid decarboxylase, a key enzyme responsible for the synthesis of a prominent and abundant neurotransmitter called GABA. GABA is crucial in controlling neuronal responses and facilitating new interconnections between neurones. Lacking GABA is related to epilepsy, Parkinson's disease, and post-traumatic stress. Our study is important for development of new ways to improve the supply of GABA in ....Mental health problems are a global issue and are subject to ongoing medical research. We study glutamic acid decarboxylase, a key enzyme responsible for the synthesis of a prominent and abundant neurotransmitter called GABA. GABA is crucial in controlling neuronal responses and facilitating new interconnections between neurones. Lacking GABA is related to epilepsy, Parkinson's disease, and post-traumatic stress. Our study is important for development of new ways to improve the supply of GABA in the brain.Read moreRead less
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.
Crosstalk Between The Repressive Histone Methyltransferases PRC2 And G9A: Structure-function Investigation To Open New Therapeutic Opportunities
Funder
National Health and Medical Research Council
Funding Amount
$595,205.00
Summary
The gene expression programs need to be precisely regulated and the misregulation of these programs can cause a broad range of human diseases. My research will focus on two protein complexes, which heavily contribute to the regulation of gene expression. My study will open a new path for developing new therapeutic strategies.
Understanding How Bcl-2 Proteins Form The Apoptotic Pores That Kill Cells
Funder
National Health and Medical Research Council
Funding Amount
$893,614.00
Summary
Programmed cell death termed apoptosis is a process our bodies use to remove cells that are a threat to our health, e.g. cancer cells. The proteins that regulate cell death are attractive targets for therapeutics that have become resistant to this defence mechanism. This study will reveal how proteins from the Bcl-2 family regulate cell death at the molecular level. Understanding this process will inform the development of drugs aimed at regulating cell death in cancer and other diseases.
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.
Structure-based Design Of Novel Therapeutics For Multi-drug Resistant Neisseria Gonorrhoeae
Funder
National Health and Medical Research Council
Funding Amount
$669,148.00
Summary
Multiple drug resistance (MDR) in bacteria represents one of the most intractable problems facing modern medicine. The recent superbug, MDR-Neisseria gonorrhoeae (MDR-Ng), causes the sexually transmitted infection gonorrhoeae. A multi disciplinary team with expertise in structural biology, medicinal chemistry and bacteriology will establish a comprehensive knowledge base aimed at developing new antibiotics to treat MDR-Ng by targeting a bacterial protein virulence factor.