Structure-based Design Of Inhibitors Of Oxidative Protein Folding In Enterobacteriaceae.
Funder
National Health and Medical Research Council
Funding Amount
$523,540.00
Summary
Antibiotic resistance represents a major public health problem. For gram-negative bacteria in particular, the situation is increasingly bleak, with the accumulation of resistance to existing drugs and few if any new drugs in the pipeline. We are using structure-based drug design to develop novel strategies for the treatment of gram-negative bacterial infections.
Development Of A Generic Strategy For The Stabilisation Of Peptide-based Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$443,196.00
Summary
There is huge interest in the development of bioactive peptides and proteins for the treatment of a wide range of diseases. However, there are still a number of hurdles that need to be overcome before this source of promising pharmaceuticals can fulfil their vast potential. One of the biggest challenges in the development of peptides and proteins as drugs is overcoming their poor stability in the human body. The broad aim of this research proposal is to develop a novel strategy that provides the ....There is huge interest in the development of bioactive peptides and proteins for the treatment of a wide range of diseases. However, there are still a number of hurdles that need to be overcome before this source of promising pharmaceuticals can fulfil their vast potential. One of the biggest challenges in the development of peptides and proteins as drugs is overcoming their poor stability in the human body. The broad aim of this research proposal is to develop a novel strategy that provides therapeutically promising peptides and proteins the ability to resist the body s natural degradation pathways so they are able to reach their biological target. To develop this strategy we will use the recently discovered peptide hepcidin as a model system. Hepcidin is the major iron-regulatory hormone in the human body and incorrect levels of this hormone result in either iron overload (haemochromatosis), when there is not enough hepcidin produced by the body, or anemia of inflammation when there is too much hepcidin. The development of hepcidin-based therapeutic agents to treat these conditions has the potential to have significant impact as it has been estimated that up to 1 in 300 Australians are affected by haemochromatosis during their lifetimes. Unfortunately, unmodified peptides, like hepcidin, are of limited therapeutic value due to their poor stability within the human body. This research proposal describes the development of stabilised hepcidin analogues with the potential of being useful drug leads for the treatment of haemochromatosis.Read moreRead less
Exploitation Of Bacterial Transcription Initiation As A Target For New Antimicrobials
Funder
National Health and Medical Research Council
Funding Amount
$540,356.00
Summary
Antibiotic resistant infections from 'superbugs' are a major health problem. We will exploit information we have gathered on the machinery that copies genetic information into a message to discover chemical compounds that can be used for the development of new antibiotics with a novel mechanism of action.
Great advances have been made in pharmaceutical design and discovery over the last 50 years. While drugs have traditionally been discovered using random screening of natural product libraries and chemical databases, new technologies in protein chemistry, structural and molecular biology have been adopted in efforts to speed the drug design process and increase its hit rate. In addition, our rapidly increasing knowledge of the molecular causes of many diseases provides us with many opportunities ....Great advances have been made in pharmaceutical design and discovery over the last 50 years. While drugs have traditionally been discovered using random screening of natural product libraries and chemical databases, new technologies in protein chemistry, structural and molecular biology have been adopted in efforts to speed the drug design process and increase its hit rate. In addition, our rapidly increasing knowledge of the molecular causes of many diseases provides us with many opportunities to develop therapeutics directed towards known molecular targets. Nevertheless, despite these advances, problems such as drug resistance and toxic side effects that compromise drug efficacy make it clear that there is a need for new classes of drugs with different modes of action. Because of their favourable properties, small-molecule drugs comprise by far the largest class of currently available therapeutics. However, in many cases, a drug derived from a protein may be preferable. The development of protein-based drugs is a youthful and rapidly expanding area of biotechnology, but to date, most studies have focused on targeting pathological events that occur on the outside of cells. We propose to use a combination of methods from molecular and structural biology, together with recently developed high-throughput screening techniques, to develop a generic protein drug scaffold that can be used as a template to develop therapeutics against a wide range of inappropriate interactions that may occur between molecules within cells.Read moreRead less
Plasmodium Falciparum Neutral Aminopeptidases: Structure-function Analysis For The Discovery Of Anti-malarial Drugs.
Funder
National Health and Medical Research Council
Funding Amount
$634,027.00
Summary
Malaria is the world's most prevalent parasitic disease. Due to the spread of drug resistant parasites there is an urgent need to identify new anti-malaria targets and develop new drugs. We have shown that two enzymes, termed neutral aminopeptidases, are essential to the parasite's survival in the host. In this proposal we will obtain the structure of these enzymes and bring forth novel lead compounds that will form the basis of a new class of anti-malaria treatment.