Optimisation Of A Potent And Fast Acting Antimalarial Class That Is Orally Efficacious In Vivo
Funder
National Health and Medical Research Council
Funding Amount
$683,916.00
Summary
Malaria is a devastating disease that results in 600 000 deaths annually. Current therapeutics used to combat malaria have a limited duration of use in the clinic due to the onset of resistance. We have identified a highly active antimalarial series that we propose to further develop to meet the prerequisites required for partnership with the Medicines for Malaria Venture (MMV) for progression into the clinic.
Towards an influenza virus glycan interaction map (Glycointeractome). This project will use nuclear magnetic resonance (NMR) spectroscopy to map carbohydrate interaction used by the virus to cause infection and spread. This information will provide new direction in anti-influenza drug discovery.
Isoform Selective PI3 Kinase Inhibitors For Cancer, Thrombosis And Inflammatory Disease
Funder
National Health and Medical Research Council
Funding Amount
$474,473.00
Summary
Inhibitors of the PI3 kinase family of enzymes have potential as therapeutics in diseases such as cancer, thrombosis and inflammatory disease. In this project the investigators will develop a new class of PI3 kinase inhibitors they have discovered, optimizing their pharmaceutical properties and evaluating them in models of disease. The aim is to develop a candidate for human clinical studies.
Novel NLRP3 Inhibitors For Steroid Resistant Asthma
Funder
National Health and Medical Research Council
Funding Amount
$927,117.00
Summary
Asthma causes 40,000 hospitalisations p.a. with 5-10% of asthmatics having severe steroid resistant asthma, a common and debilitating disease, where current treatments do not work. Effective therapies are urgently required. Based on our research, we have novel molecules showing high level of efficacy in models of severe steroid resistant asthma. These molecules will be further investigated to deliver a drug candidate for commercialisation within 3 years.
Development Of A Self-adjuvanting Mucosal Vaccine Candidate Against Group A Streptococcus Using Lipid Core Technology
Funder
National Health and Medical Research Council
Funding Amount
$316,449.00
Summary
Novel developments in drug/vaccine delivery are clearly to have enormous economic and social impacts. My research aim is to rationally design and develop vaccines against relevant diseases. By understanding the mechanism of protection against diseases, development of novel vaccines for the treatment of many diseases can be achieved. This would contribute enormously to the betterment of public health.
Inhibitors Of NLRP3 Activation For Treatment Of Inflammatory CNS Diseases
Funder
National Health and Medical Research Council
Funding Amount
$1,023,137.00
Summary
This project will use novel tool compounds to advance our understanding of inflammatory brain diseases such as Parkinson's disease and Multiple Sclerosis. We will examine the molecular pathways and identify novel means to treat these debilitating diseases. We will then aim to design novel therapeutics which target these pathways.
Development of small molecule primary sulfonamides as new drugs for malaria. Malaria is a major global health threat, causing approximately 800,000 deaths annually. Lives can be saved if patients are treated. The use of current antimalarial drugs is limited by drug resistance, low activity and poor safety. This project investigates the effectiveness of a new class of molecule as a safe drug treatment option to kill malaria parasites.
Interrogating diarylquinoline toxicity with targeted organic synthesis. Bedaquiline is the only new first-line treatment with a new mechanism of action to treat TB in the last 40 years, approved by the FDA on 31 December 2012. Alarmingly, this compound, has significant toxicities. The hypothesis tested in this project is that decreasing lipophilicity and basicity in this class of compounds while retaining target affinity will decrease toxicity but retain anti-TB activity. The project aims to: sy ....Interrogating diarylquinoline toxicity with targeted organic synthesis. Bedaquiline is the only new first-line treatment with a new mechanism of action to treat TB in the last 40 years, approved by the FDA on 31 December 2012. Alarmingly, this compound, has significant toxicities. The hypothesis tested in this project is that decreasing lipophilicity and basicity in this class of compounds while retaining target affinity will decrease toxicity but retain anti-TB activity. The project aims to: synthesise novel heteroarylalkylamines distinct from bedaquiline and designed to be more polar, less basic, and metabolically more stable; and, test all successfully synthesised target compounds for mechanism-based anti-tuberculosis activity, hERG-mediated cardiotoxicity, metabolic instability, and phospholipidosis.Read moreRead less
New Strategies In The Treatment And Imaging Of Neurodegenerative Diseases
Funder
National Health and Medical Research Council
Funding Amount
$934,085.00
Summary
The treatment and diagnosis of brain diseases is one of society’s major challenges. To address these challenges, we need a better understanding of the molecular mechanisms involved in brain disease. We will develop innovative ways in which to probe disease progression, assess efficacy of treatment, and ultimately treat a wide range of brain disorders.
Dissecting catalysis and inhibition of a unique endo-acting mannose-processing glycosidase. Defects in the attachment of carbohydrates to proteins are a hallmark of diseases such as cancer and viral infection. This project will dissect the molecular details of the bond-making and breaking steps that occur during the synthesis of glycoproteins assisting in the development of innovative new drugs.