Inhibitors Of Hypoxanthine-guanine-xanthine Phosphoribosyltransferase As Versatile Drugs To Treat Infectious Diseases
Funder
National Health and Medical Research Council
Funding Amount
$766,163.00
Summary
Due to the increase in resistance to many of the frontline drugs to treat bacterial and parasitic infections, there is an urgent need to develop new pipelines for drug discovery against the pathogens that are causative agents of this diseases. This project pioneers the blocking of nucleotide synthesis to develop new drug leads to treat malaria, human tuberculosis, African sleeping sickness, Chagas disease and uropathogenic E.coli infections.
Inhibitors Of Biotin Protein Ligase: A New Class Of Antibiotic Targetting Staphylococcus Aureus
Funder
National Health and Medical Research Council
Funding Amount
$605,963.00
Summary
The rise of drug-resistant "superbugs" is a major healthcare concern in hospitals around the world. New antibiotics are needed to combat infections caused by bacteria that are resistant to current drugs. One collaborative team of researchers is addressing this issue. They have discovered a new drug effective against Staphylococcus aureus, the cause of Golden Staph using a combination of scientific disciplines the team is now moving forward and improving their exciting new drug.
The Biosynthesis Of Mycobactin T, A Virulence Factor From Mycobacterium Tuberculosis.
Funder
National Health and Medical Research Council
Funding Amount
$211,527.00
Summary
Mycobacterium tuberculosis is the causative agent of tuberculosis. The drug isoniazid led to a dramatic and sustained decline in mortality due to tuberculosis. This led to it being described in medical literature in 1988 as a disappearing disease which was now fairly easy to treat. However, the advent of HIV and the rapid rise of multidrug resistant M. tuberculosis led to dramatic changes. The risk that an HIV infected individual will develop active tuberculosis is 7% per year, compared to a lif ....Mycobacterium tuberculosis is the causative agent of tuberculosis. The drug isoniazid led to a dramatic and sustained decline in mortality due to tuberculosis. This led to it being described in medical literature in 1988 as a disappearing disease which was now fairly easy to treat. However, the advent of HIV and the rapid rise of multidrug resistant M. tuberculosis led to dramatic changes. The risk that an HIV infected individual will develop active tuberculosis is 7% per year, compared to a lifetime risk of 10% for an immunocompetent person. Similarly, the prevalence of drug resistant strains of M. tuberculosis is over 5% in many regions, including SE asia. Mycobacterial infections are regarded as the leading cause of morbidity and mortality world wide and WHO estimates that 30 million deaths will occur in the next decade due to these infections. Clearly, new drugs are required to combat the rising menace of this organism. The aim of this project is to detail the unique metabolic pathways in M. tuberculosis that produce Mycobactin T, essential to the virulence of this organism. Mycobactin T helps the bacteria obtain iron, an essential nutrient. These factors make the mycobaction pathway an ideal drug target and an understanding of its biochemistry is essential to its eventual exploitation for intervention in M. tuberculosis infections. We hypothesise that it may already provide the unknown site of action of a clinically employed, antituberculosis drug para-aminosalicylate (PAS). This project will i) fully define the structure of mycobactin T; ii) clone and overexpress key genes which catalyse the first three steps of mycobactin formation; iii) purify and characterise the overexpressed proteins with respect to their biochemical function; iv) examine the interaction of PAS with the proteins likely to be targeted by this antimycobacterial agent. The results of this work will provide the basis for the development of future anti-tuberculosis drugs.Read moreRead less
Flaviviral Proteases As Viable Targets For Antiinfective Drugs
Funder
National Health and Medical Research Council
Funding Amount
$620,716.00
Summary
Viruses hijack the machinery and nutrients of cells they infect in order to reproduce. We will study viral enzymes (proteases) essential for virus replication, use fluorescent probes to learn where the viral enzymes hide and act in infected cells, track the passage of drugs aimed at these enzymes, design drugs to block their actions and stop virus replication, and test antiviral activity against Dengue, West Nile, Japanese Encephalitis and Yellow Fever viruses which infect millions of people.
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.
Broad Spectrum Inhibition Of An Enzyme Antibiotic Target
Funder
National Health and Medical Research Council
Funding Amount
$321,534.00
Summary
There is a well-documented need to replenish the antibiotic pipeline with new products to combat the rise of drug resistant bacteria. In this project, the enzyme dihydrodipicolinate synthase (DHDPS) is targetted which is essential to bacterial viability. A number of independent but synergistic drug discovery approaches are investigated to develop and test DHDPS inhibitors in the pursuit of a novel class of antibiotics.
Biochemical Reconstitution Of The Ubiquitin Ligase Pathway Defective In Fanconi Anaemia
Funder
National Health and Medical Research Council
Funding Amount
$562,742.00
Summary
Fanconi Anemia (FA) is characterised by loss of vital blood cells but also 700x risk of developing leukaemia and other cancers. FA is caused by an inherited defect in one of 15 different genes that provide a signal and repair mechanism protecting cells from cancer causing mutations. By reconstructing this signaling mechanism in the test tube we will determine how it contributes to cancer protection, and highlight potential strategies for treatment of FA and leukaemia in the general population.
An Integrated Approach To Combat Antibiotic Resistance
Funder
National Health and Medical Research Council
Funding Amount
$389,120.00
Summary
The development of antibiotics such as penicillin was hailed as one of the great breakthroughs in medicine. However, an increasing number of pathogens have acquired resistance to these drugs. One of the most common resistance mechanisms employed by these pathogens is the use of metal dependent enzymes that promote the degradation of antibiotics. To date, no clinically useful inhibitors for these enzymes are available. In this project, we aim to develop such inhibitors as therapeutic drug leads.
Synthesis of substrate analogues for probing catalytic mechanisms and specificity of enzymes involved in the metabolism of plant polysaccharides. The project is aimed at strengthening collaborations between research groups in Adelaide and France, with the specific objective of synthesizing substrate analogues as probes of enzymatic mechanisms and substrate specificity in polysaccharide hydrolases and synthases of barley. The chemical expertise resides in France, while the enzymatic work will be ....Synthesis of substrate analogues for probing catalytic mechanisms and specificity of enzymes involved in the metabolism of plant polysaccharides. The project is aimed at strengthening collaborations between research groups in Adelaide and France, with the specific objective of synthesizing substrate analogues as probes of enzymatic mechanisms and substrate specificity in polysaccharide hydrolases and synthases of barley. The chemical expertise resides in France, while the enzymatic work will be conducted largely in Australia. Exchange of research staff, particularly at the postgraduate student and research associate levels, is considered essential to capture the benefits of the complementary expertise and to extend an existing international collaboration. The target enzymes are of central importance in cell wall metabolism during development of higher plants.Read moreRead less