Substance abuse is a significant social and economic burden upon Australian societies and on societies around the world. Treatment remains problematic due to the multi-layer nature of the disease, difficulties with treatment compliance and less than ideal treatment regimes. The present study aims to improve treatments for alcohol and drug abuse using pre-clinical models to identify and characterize a new brain system implicated in drug-seeking.
High Penetrance Deleterious Mutations In Blinding Glaucoma
Funder
National Health and Medical Research Council
Funding Amount
$1,345,055.00
Summary
This project aims to identify the genes most commonly mutated in individuals with advanced glaucoma. Identification of such genes will lead to improved understanding of glaucoma pathogenesis, a better ability to predict risk, and the identification of drug targets for novel therapies.
Salt (sodium) is an essential electrolyte. Our convincing and complementary findings provide compelling evidence for a link between evolutionarily ancient “instincts” and substance abuse. This proposal is translational, including studies in opiate dependent humans. Our studies will establish how and where in the brain endogenous opioids are implicated in the gratification of salt appetite, how salt appetite is altered in opiate dependency and if salt appetite recovers following opiate withdrawal
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.
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.
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.
Structural Characterisation Of The Co-inhibitory Complex Formed By The Tumour Suppressor PTEN And The Metastatic Factor PREX2
Funder
National Health and Medical Research Council
Funding Amount
$563,602.00
Summary
Metastasis is a major cause of cancer mortality. Characterisation of key proteins that regulate metastasis is therefore a priority. PTEN and PREX2 are enzymes that play key roles in metastasis in melanoma, and other cancers. We will determine the structural basis of PTEN:PREX2 co-inhibition, and determine how cancer-associated PREX2 mutations dysregulate this inhibitory complex. This study will provide the necessary knowledge for future drug development programs targeting PTEN:PREX2 in cancer.