Development Of Carbohydrate Based Self-adjuvanting Vaccine Delivery System
Funder
National Health and Medical Research Council
Funding Amount
$311,647.00
Summary
The world is in a need for effective vaccines for the treatment/prevention of a range of currently occurring diseases. The aim of this project is to develop sugar/lipid-based delivery systems by revolutionary new chemo-enzymatic technology. Expected outcomes of the project will be numerous biologically active vaccine candidates and novel technologies which will lead to effective therapeutic products.
Novel Analgesic Approaches: Harnessing Functional Interactions Between Sodium Channels And Opioids
Funder
National Health and Medical Research Council
Funding Amount
$329,076.00
Summary
Chronic pain is a debilitating condition that affects the life of one five Australians and has significant socioeconomic impact. Currently available pain killers often do not work, or have intolerable side effects. We have discovered that combination treatment with opioids and a novel venom-derived compound discovered by us provides effective pain relief. The aim of this project is to understand the mechanisms underlying this synergistic effect to develop new treatment approaches for pain.
Improving Synthetic Methodology To Prepare Pre-clinical Analogues Of Human Insulin
Funder
National Health and Medical Research Council
Funding Amount
$457,708.00
Summary
The glucose regulatory hormone, insulin, remains the only treatment for type I diabetes and up to 30% of type II diabetes, both of which are among the world’s fastest growing chronic diseases today. Because insulin, if taken orally, would be broken down quickly, it has usually been given by injection. This project will develop novel chemical methods for the efficient preparation of novel insulin therapeutics with improved stability and oral bioavailability for prolonged treatment of patients.
Membrane-active Antibiotics Against Multi-drug Resistant Gram Negative Bacteria
Funder
National Health and Medical Research Council
Funding Amount
$942,299.00
Summary
We are now threatened by bacteria that are resistant to ALL antibiotics. However, there is a new paradigm: antibiotics inspired by nature that attack the membrane of bacteria. This project will re-engineer peptides from lugworms, horseshoe crabs, scorpions and spiders that are part of nature’s ancient defence against bacteria, to identify new antibiotics to combat infections in humans.
Development Of Next Generation Drugs For Chronic Myeloid Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$632,726.00
Summary
Chronic myeloid leukaemia (CML) is one of the four most common types of leukaemia. With current therapies, 15–20% of patients newly diagnosed for CML will die in the next five years, and it is therefore vitally important to discover new treatments. The aim of this project is to develop a new generation of drugs to treat CML based on new approaches (i.e., different type of molecules and different binding site) that can combat the resistance acquired to the current treatments.
Developing Species-specific, Structure-targeting Peptides As A Novel Class Of Antibiotics
Funder
National Health and Medical Research Council
Funding Amount
$607,967.00
Summary
Multidrug, antibiotic resistance is a serious global threat. It is a real possibility that in the absence of new antibiotics, common infections could soon become untreatable. This project will develop a novel class of antibiotics that target the core structures of essential bacterial proteins. The successful outcome of this work will also aid the development of specific peptide-based inhibitors for numerous additional diseases, including viral and fungal infections and cancer.
Further Development Of The Clinical Potential Of H2 Relaxin
Funder
National Health and Medical Research Council
Funding Amount
$651,768.00
Summary
The hormone relaxin mediates cardiovascular and kidney changes during pregnancy. These important functions have led to its current use in clinical trials for the treatment of acute heart failure, a condition affecting millions of patients worldwide. However, there is an urgent need for a longer lasting form of relaxin for prolonged treatment of patients. Our studies will focus on understanding the blood breakdown of the peptide to lead to the design of longer lasting relaxin analogues.
A Pharmacological Approach To Define The Contribution Of Nav1.7 To Pain Pathways
Funder
National Health and Medical Research Council
Funding Amount
$501,467.00
Summary
Chronic pain is a debilitating condition that affects the life of one in five Australians and has significant socioeconomic impact. Currently available pain killers often do not work, or have intolerable side effects. We have discovered the most selective blocker for a specific type of sodium channel that is a known pain target and will use this novel molecule to gain insight into the mechanisms of pain and to develop new pain killers.
The Role Of A New Class Of Chromatin Organising Hub
Funder
National Health and Medical Research Council
Funding Amount
$1,145,450.00
Summary
Within the cell nucleus, specific proteins weave DNA into structured loops that are vital for normal cell function. By studying the molecules involved, we have uncovered a ‘dock’ that controls this DNA architecture. We will define the components and function of this ‘dock’, and the resulting rapid cell death that occurs if it is disrupted. We will explore this cell death pathway thoroughly because we think it may help us to develop new cancer therapies.
Design And Delivery Of Peptide-based Anti-cancer Grb7 Inhibitors
Funder
National Health and Medical Research Council
Funding Amount
$603,126.00
Summary
The Grb7 protein is overproduced in many types of cancer cells and plays a role in cancer cell growth and spread. The current proposal builds upon the discovery of a peptide-based Grb7 inhibitor that has anti-cancer activity. This proposal is to prepare more potent inhibitor molecules that can efficiently reach the target cancer cells. Such molecules will be used for the study of Grb7 and for the development of a new Grb7-based anti-cancer drug therapy.