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.
DsbA Foldases From Multidrug Resistant Pathogens As Targets For New Antimicrobials
Funder
National Health and Medical Research Council
Funding Amount
$743,401.00
Summary
Bacteria that cause common human infections, such as cystitis and diarrhoea, are now resistant to many antibiotics. If no action is taken, by 2050 antibiotic resistant infections will kill more people each year than cancer. This project aims to address this global public health crisis by characterising promising new bacterial targets and inhibitors designed to disarm multidrug resistant pathogens. Longer term this work could provide new infection therapies that are urgently needed.
Structural Investigation Into The Regulation Of The Colony Stimulating Factor Receptor, C-FMS.
Funder
National Health and Medical Research Council
Funding Amount
$287,321.00
Summary
The colony stimulating factor receptor, c-FMS is a member of a family of protein signalling molecules expressed on the cell surface that are implicated in the development of serious diseases in humans, such as inflammatory diseases and cancer. A number of important proteins bind to and regulate c-FMS in different ways. I intend to visualise these interactions to further understand how c-FMS activity is controlled by alternative means.
Discovery And Mechanisms Of Host Cell Factors In HIV Uncoating
Funder
National Health and Medical Research Council
Funding Amount
$635,098.00
Summary
HIV entry into the host cell involves release of its capsid, a protein shell protecting the viral genome. The capsid hijacks host proteins to cloak itself from cellular defenses while the cell has evolved sensors that can block viral infection. This proposal aims to discover proteins involved in this arms race between host and virus and decipher how they control capsid disassembly. This insight will help design new drugs against HIV infection and new ways to deliver genes for gene therapies.
I am a protein crystallographer determining the structures of medically important proteins such as proteases. I am also a bioinformatician leading the development of informatics systems for automated highthroughput crystallography, and bioinformatic analy
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.
Autocrine Vitamin D Metabolism, Activity And Bone Health
Funder
National Health and Medical Research Council
Funding Amount
$459,270.00
Summary
This project will provide the detailed understanding of the activities of vitamin D within the bone microenvironment and offers the exciting prospect of elucidating the mechanistic reasons for maintaining an adequate vitamin D status in relation to the prevention of osteoporotic hip fractures. Thus, this project has great potential to improve community health by being able to recommend vitamin D supplementation made on the basis of maintaining normal bone cell function.
Biochemical Analysis Of Akt 3-specific Signal Transduction
Funder
National Health and Medical Research Council
Funding Amount
$349,375.00
Summary
The Akt family of enzymes consists of 3 protein kinases (Akt 1,2 and 3) and has been shown to regulate many normal cellular processes such as cell proliferation, growth, survival and motility, as well as the growth of new blood vessels. All these processes are critical for cancers to grow. However, few studies have distinguished the roles of the individual family members. Our preliminary data revealed Akt3 is far more active than the other two forms. Furthermore, using our unique Akt3 specific a ....The Akt family of enzymes consists of 3 protein kinases (Akt 1,2 and 3) and has been shown to regulate many normal cellular processes such as cell proliferation, growth, survival and motility, as well as the growth of new blood vessels. All these processes are critical for cancers to grow. However, few studies have distinguished the roles of the individual family members. Our preliminary data revealed Akt3 is far more active than the other two forms. Furthermore, using our unique Akt3 specific antibody, we find Akt 3 protein and activity levels are high in rapidly proliferating ovarian cancer cell lines and in primary ovarian tumours. The aim of this proposal is to characterise the mode and role of signalling via Akt3, including the identification of targeted substrates and signaling pathways and the outcomes of Akt3 driven signaling on cellular properties. These studies will provide important clues to understanding how this family member functions in both health and disease. Elucidation of the basis of Akt3 dependent signalling will open the possibility for the development of drugs that interfere with Akt3 function (for example in high Akt 3 expressing tumours like those of the ovary). In the long term, extension of our profiling studies to other tumour types will give a novel insight into the extent of Akt3 de-regulation as a key mediator of cancer formation.Read moreRead less
Regulation Of SRC-Family And Focal Adhesion Kinase Function
Funder
National Health and Medical Research Council
Funding Amount
$381,338.00
Summary
Cells in our bodies stick to one another and to the cementing material called extracellular matrix surrounding them. An ezyme called focal adhesion kinase (FAK) is a major regulator of cell stickiness. It can catalyze the covalent attachment of a chemical group called phosphate to specific cellular protein. This proposal aims at studying how FAK is regulated by insulin stimulation and how FAK is regulated by a tumour suppressor called PTEN. Results of the study will shed light on how abberration ....Cells in our bodies stick to one another and to the cementing material called extracellular matrix surrounding them. An ezyme called focal adhesion kinase (FAK) is a major regulator of cell stickiness. It can catalyze the covalent attachment of a chemical group called phosphate to specific cellular protein. This proposal aims at studying how FAK is regulated by insulin stimulation and how FAK is regulated by a tumour suppressor called PTEN. Results of the study will shed light on how abberrations in the regulation and PTEN contribute to the development of development defects, heart attack, and the spreading of cancer cells.Read moreRead less
Structure, Assembly, And Inhibition Of The Human Telomerase Enzyme Complex
Funder
National Health and Medical Research Council
Funding Amount
$645,359.00
Summary
In contrast to the limited growth of normal human cells, cancer cells proliferate out of control and without limit. At least 85% of all human cancers rely on the enzyme TELOMERASE to sustain their unlimited proliferation. Telomerase is absent in most normal tissues and therefore represents a potentially effective and specific target for future cancer therapy. We aim to determine the precise 3-dimensional shape of human telomerase to provide a template for rational anti-telomerase drug design.