Preventing The Evolution Of Transmissible Nitroimidazole Resistance In Mycobacterium Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$664,463.00
Summary
Tuberculosis kills more people than any other infectious disease. Unfortunately, the drugs available to us to treat TB are losing their efficacy due to the evolution of drug resistance. A new class of drugs, nitroimidazoles, has been developed, but there is a risk that the bacterium that causes TB will develop resistance to these compounds too. We will identify resistance mutations before they occur in the wild, to help identify them and find new compounds for which resistance cannot develop.
Dissecting The Pathogenic Triad Of Enteric Pathogens: Assembly, Structure And Function Of Autotransporter Proteases
Funder
National Health and Medical Research Council
Funding Amount
$639,428.00
Summary
SPATEs are proteases secreted by many enteric bacteria that contribute to their pathogenic potential by damaging host tissues and evading the host immune response. We aim to study the structural basis of their assembly and biological function. The information we gain will assist the development of new diagnostics and improved therapies for enteric infections.
The Molecular Basis Of Cytochrome P450 Ligand Binding: Towards Predicting Enzyme Substrate Selectivity And Drug-drug Interaction Potential
Funder
National Health and Medical Research Council
Funding Amount
$558,447.00
Summary
Cytochrome P450 (CYP) enzymes play a pivotal role in the metabolism (i.e. chemical breakdown) of drugs, a process that is essential for their detoxification and elimination from the body. This project will combine advanced computational and experimental approaches to elucidate the molecular basis for the binding of drugs to CYP enzymes, which is crucial for the design of drugs with favourable metabolic properties and decreased propensity for harmful interactions with co-administered drugs.
Structural And Functional Characterisation Of Human Neurotransmitter Inhibitor Producing Enzymes Glutamate Decarboxylase
Funder
National Health and Medical Research Council
Funding Amount
$35,085.00
Summary
Glutamate decarboxylase (GAD) produces the major inhibitory neurotransmitter in the central nervous system, GABA. GAD dysfunction is associated with mental diseases including epilepsy and schizophrenia. We aim to understand the functional role of structural elements of GAD via x-ray crystallography and kinetic studies. We also aim to produce a high throughput GAD enzyme assay to screen compounds that can modulate GAD activity, which could be potential therapeutic targets for related disease.
Structure-based Design Of Inhibitors Of PimA - A New Target For Tuberculosis Therapy
Funder
National Health and Medical Research Council
Funding Amount
$666,246.00
Summary
Tuberculosis (TB) is a devastating disease that kills 2 million people worldwide each year and affects one-third of the entire human population. Bacterial resistance to existing antibiotics is an ever increasing problem, highlighting the need to develop new anti-TB drugs. The aim of this project is to develop specific inhibitors to target a protein that is essential for the survival of the tuberculosis bacterium.
Cryptococcal Phospholipases: Structure, And Potential Targets For Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$511,650.00
Summary
Mortality and morbidity from invasive fungal infections have increased substantially over the past two decades, especially in immunocompromised patients, such as those with AIDS. Antifungal drugs marketed at present are not very effective or are toxic. There is a need to identify new metabolic and structural targets, some of which are responsible for fungal virulence, as potential areas for development of new drugs. One such virulence factor discovered in our laboratory is an enzyme secreted by ....Mortality and morbidity from invasive fungal infections have increased substantially over the past two decades, especially in immunocompromised patients, such as those with AIDS. Antifungal drugs marketed at present are not very effective or are toxic. There is a need to identify new metabolic and structural targets, some of which are responsible for fungal virulence, as potential areas for development of new drugs. One such virulence factor discovered in our laboratory is an enzyme secreted by the pathogenic fungus, Cryptococcus neoformans, which is acquired by inhalation into the lungs where it can cause lesions, and eventually spreads to other parts of the body, including the brain (median mortality, 17%). This enzyme breaks down cell membranes, aiding invasion into the host lungs and other tissues, and is called phospholipase B (PLB). It is also produced by several other pathogenic fungi, and is different from human phospholipases. In this project we aim to understand how the PLB is constructed, so that we can work out where the cell membrane components bind to it. We will then design drugs which can bind to the PLB enzyme in place of membrane components and in this way block its harmful effects. We will test the effects of such drugs to make sure they do not interfere with human enzyme systems. Inhibitory compounds may also be able to kill the cryptococcal cells, especially if administered together with currently used therapies. Drugs developed to treat Cryptococcus will then be applicable to other systemic fungal infections - a major advance in the treatment of fungal disease, and a saving of some A$60,000 per patient (estimated from a recent U.S. study).Read moreRead less
Design And Evaluation Of Inhibitors Of Phospholipases A2 As Anti-Inflammatory Drugs
Funder
National Health and Medical Research Council
Funding Amount
$317,545.00
Summary
There are at least 16 types of enzymes called phospholipases A2 (PLA2). They are found in venoms of snakes, bees, lizards, cone snails, etc and act as toxic and digestive agents. PLA2 enzymes are also found in cells and tissues of mammals where they carry out a wide range of digestive, maintenance, immune defence, and cell signalling functions. The human pancreas secretes one form of PLA2 into the gut to aid digestion. Human immune cells (macrophages, thymocytes, spleen leukocytes, platelets) us ....There are at least 16 types of enzymes called phospholipases A2 (PLA2). They are found in venoms of snakes, bees, lizards, cone snails, etc and act as toxic and digestive agents. PLA2 enzymes are also found in cells and tissues of mammals where they carry out a wide range of digestive, maintenance, immune defence, and cell signalling functions. The human pancreas secretes one form of PLA2 into the gut to aid digestion. Human immune cells (macrophages, thymocytes, spleen leukocytes, platelets) use other forms of PLA2 in the inflammatory immune response to kill infectious foreign agents like viruses and bacteria. One form of PLA2, known as type IIa, is the main bacteria-killing ingredient of human tears and it is also a chief component of fluid from the joints of patients with arthritis. Type IIa PLA2 is present in abnormally high levels in blood from humans with arthritis, burns, sepsis, ARDS, atherosclerosis, Crohn's disease, malaria, cancer and other chronic illnesses. These high levels can cause injury, tissue damage and pain due to too much inflammation and treatments are needed to stop or decrease effects of this enzyme . For these reasons this and related enzymes are thought to be potential targets for drugs which would act by blocking the functions of such an enzyme. Our group has been using computers to design new chemicals that can selectively fit into this enzyme and stick very tightly. We are determining the three dimensional structures of these chemicals in the enzyme to learn how to make them bind even more tightly. This information is allowing us to synthesize new selective drugs that stop PLA2 from promoting the development of disease. We propose to continue these studies towards developing powerful new antiinflammatory drugs that block the enzyme, and to demonstrate possible benefits of these drugs by testing them in animal models of arthritis, sepsis, adult respiratory distress syndrome (ARDS), period pain, malaria, and cancer.Read moreRead less