Alpha-2-Macroglobulin And The Transport And Uptake Of The Hormone, Hepcidin
Funder
National Health and Medical Research Council
Funding Amount
$533,541.00
Summary
Hepcidin is a peptide hormone that is a major regulator of iron metabolism. It has been suggested that hepcidin is free in the blood. However, we recently identified that hepcidin binds with alpha-2-macroglobulin (a2-M) in the plasma and this increases the efficacy of this peptide. The demonstration that a2-M plays a role in hepcidin biology will lead to a better understanding of hepcidin physiology, the development of methods for its measurement and improved treatment of iron related diseases.
We have discovered a single tumour factor which causes cancer cachexia, a wasting condition that is one of the worst complications of malignancy, for which there is no current effective treatment. We have developed antibodies which effectively block this condition in preclinical models and have produced human/humanised version of this. This application is to characterise these human antibodies to allow us proceed to clinical trials.
Alpha-particles linked to recombinant antibodies targeting tumour cells have potential to effectively treat tumours while minimising normal tissue side effects. We will explore a novel alpha-particle therapy approach to solid tumours, by delivering 225Ac directly into tumour cells, or into cells that support the tumour (microenvironment). This approach will hopefully result in development of a new approach to treatment of cancers that are resistant to conventional therapies.
Melanotransferrin: A “Missing Link” And A Novel Pharmacological Target For Treatment
Funder
National Health and Medical Research Council
Funding Amount
$613,848.00
Summary
Despite >30 years of research, the precise function of the protein, melanotransferrin (MTf), is unknown. However, we have breakthrough evidence that MTf stimulates WNT signalling as a major driver in cancer progression. We will investigate this hypothesis, which will underpin new cancer therapies. Indeed, we designed a new class of drugs that target the WNT pathway via up-regulating the WNT inhibitor, NDRG1. This drug (DpC) inhibits MTf expression to block tumour cell growth and metastasis.
Genome-wide discovery of translation control mechanisms. This project aims to reveal currently unknown molecular details of protein synthesis, a step of gene expression that is central to all of life. To achieve this, innovative methods based on next-generation sequencing will be deployed in the yeast model organism. Yeasts are of importance as pathogens as well as in the food and biotechnology industry sector. Thus, new knowledge generated in this project will help solve problems of invasive pa ....Genome-wide discovery of translation control mechanisms. This project aims to reveal currently unknown molecular details of protein synthesis, a step of gene expression that is central to all of life. To achieve this, innovative methods based on next-generation sequencing will be deployed in the yeast model organism. Yeasts are of importance as pathogens as well as in the food and biotechnology industry sector. Thus, new knowledge generated in this project will help solve problems of invasive pathogenic behaviour and biomass production.Read moreRead less
Griseofulvin, A Novel Host-directed Antimalarial Drug
Funder
National Health and Medical Research Council
Funding Amount
$461,551.00
Summary
This grant is for a Phase II clinical trial to test an FDA & TGA approved drug for a new use as an antimalarial drug. The parasite uses an enzyme from the human RBC to help it replicate & early trials show this drug appears to disrupt the life cycle of the parasite. This Phase II clinical trial will test the drug on human subjects, & if successful, the drug will be a new and novel way in which to treat and prevent malarial infections in humans.
Targeting An Ion Pump In The Malaria Parasite With Multiple Compound Classes
Funder
National Health and Medical Research Council
Funding Amount
$384,686.00
Summary
Large-scale antimalarial drug screening projects have identified three different classes of compound that kill the malaria parasite at extremely low doses and which hold real promise as next-generation antimalarials. Genetic evidence, as well as preliminary data from our own lab, has led us to the hypothesis that all three compound classes exert their antimalarial effect by blocking a molecular ion pump on the parasite surface. The aim of this study is to test this.
Tracking factor footprints to reveal the intricacy and control of translation initiation. Messenger ribonucleic acid (RNA) translation is required for all of life and knowledge of how it works is central to modern life sciences. This project will develop novel ways of studying translation, generating entirely new descriptions of its inner workings that may transform knowledge of gene function and its use in medical and biotechnological processes.
Humanisation And Pre-clinical Validation Of A Therapeutic Anti-cancer Antibody
Funder
National Health and Medical Research Council
Funding Amount
$699,136.00
Summary
This grant will develop a novel antibody against a protease expressed on cancer cells. Preclinical studies, and antibody humanisation, will be performed. This project will also provide vital information on optimal therapeutic approaches with the antibody that can be ultimately taken into human trials.