The WHO estimates there were ~189 million clinical cases & 584,000 malaria-related deaths in 2013. This translates to ~1,600 child deaths daily. There is no licensed malaria vaccine & all available drugs are associated with resistant parasites. This enormous health issue is driving the search for new therapies. We address this issue by identifying new drug candidates for malaria prevention, with unique modes of action to treatment drugs in order to overcome issues of parasite drug resistance.
Epigenetic Therapies As Molecular Probes To Investigate The Molecular Pathogenesis Of Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$937,402.00
Summary
A major limitation to the success of targeted therapies in cancer is the fact that we have few if any tools to study in detail their mechanism of action within cancerous and normal cells. If we were able to visualise these drugs within cells and precisely characterise the proteins, DNA and RNA within a cell that interact with these therapies we will be able to identify strategies that can optimise their efficacy and reduce the side-effects of these treatments.
Antibiotic resistance is a looming public health crisis. New antibiotics with new mechanisms of action are desperately needed. The long-term goal of this research is to develop new drugs that disarm bacteria to overcome the problem of antibiotic resistance.
DYRK1A As A Novel Target For Glioblastoma Therapies
Funder
National Health and Medical Research Council
Funding Amount
$620,294.00
Summary
Glioblastoma is a form of brain cancer that is currently incurable. We have discovered that switching-off an enzyme called DYRK1A (using ‘DYRK1A inhibitors’) kills glioblastoma cells. This therapeutic advantage is even greater when combined with drugs approved for other cancers. This project will develop new DYRK1A inhibitors and examine a novel combination treatment for glioblastoma patients. This could initiate a novel therapy that could significantly extend patients’ lives.
Development Of Small Molecule Modulators Of Apoptosis
Funder
National Health and Medical Research Council
Funding Amount
$621,558.00
Summary
Cancers rely on the deregulation of key cellular pathways. Along with biological and genetic tools, small molecules are powerful probes to understand these mechanisms. During the course of this research program, we will develop new and drug-like molecules that reinstate the cell death process to combat malignancies. This research will bring important advances for potential chemotherapies and create probes to better understand the biology of programmed cell death processes.
Malaria is a major global health problem. The protein AMA1 plays a key role in the invasion of host cells by malaria parasites, and agents that inhibit this interaction prevent host cell invasion and thus represent leads for the development of anti-malarial drugs. We have identified a number of chemical scaffolds that target a key site on AMA1. In this project we will optimize these leads to generate potent ligands for this site and evaluate the efficacy of these ligands as anti-malarial agents.