Downsizing A Human Protein To Modulate Inflammatory Diseases
Funder
National Health and Medical Research Council
Funding Amount
$516,793.00
Summary
We have discovered how to downsize a human protein to very small molecules with the same activities and potencies. Small changes enable the compounds to powerfully block the actions of the protein. These small molecules are very stable in blood, whereas the protein deactivates in minutes. This project will develop the small molecules into experimental drugs and test them in human cells and proteins, and in rats to evaluate their potential for treating human inflammatory diseases.
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.
Modulating Protein-Protein Interactions In Disease
Funder
National Health and Medical Research Council
Funding Amount
$863,910.00
Summary
Most diseases are driven by protein-protein interactions often with few/no greasy pockets to fit small molecule drugs. Innovative approaches to new drugs are needed for these proteins. This project combines chemistry, biochemistry and pharmacology to create new drug leads, new knowledge on drug action and disease development at gene, protein, cell, animal levels, and aims to trial new drug leads in preclinical and eventually clinical tests in inflammatory and metabolic diseases, pain and cancer.
This research draws together my expertise in medicinal chemistry, biochemistry, pharmacology and virology to design and develop new compounds that we can use to interrogate and regulate human and viral proteins that cause disease. Protein, cell and animal studies relevant to major 21st century health burdens (such as inflammatory, infectious and metabolic diseases, cancer, pain and viral infections) will provide important new information on mechanisms of disease development and drug action.