A Bispecific Antibody To Synergise Checkpoint Blockers In Oncology
Funder
National Health and Medical Research Council
Funding Amount
$636,492.00
Summary
Cancer hides from the immune system in its earliest stages by evading immune surveillance and a cell type named myeloid derived suppressor cell (MDSC) has been identified as the main accomplice in this evasion. Currently, there is no drugs able to specifically target those cells. Here, we will develop a new drug that will prevent their recruitment to the tumors. We believe that when use in synergy with recent immunotherapies, it will dramatically improve survival in cancer patients.
Cancer is now the number one killer of Australians and there is an unmet medical need to develop new therapies that are safe and maximize anti-cancer efficacy. Cancer immunotherapy now represents a new fourth pillar in cancer treatment to complement surgery, radiotherapy and chemo-/targeted therapies. This application aims to develop new therapeutic approaches to broaden the effectiveness of cancer immunotherapy and potentially allow the treatment of a broader range of cancers and patients.
Development Of A New Surgical-guidance Tool For Intra-operative Tumour Margin Assessment In Breast Cancer
Funder
National Health and Medical Research Council
Funding Amount
$557,982.00
Summary
One third of breast cancer patients undergoing breast conserving surgery have insufficient tissue removed, resulting in an increased risk of recurrence. We have developed a high resolution optical imaging probe with the potential to detect small areas of cancer. It could be used to help guide the surgeon to remove all cancerous tissue from the patient. This grant will allow us to develop the probe to a stage that it can be used during surgery, and perform the world’s first clinical scans.
Novel Therapy For Enhancing Organ Maturation In Pre-term Babies
Funder
National Health and Medical Research Council
Funding Amount
$694,323.00
Summary
This project is developing a factor to enhance organ maturation and repair that may provide a new therapy for premature babies and fetuses with birth defects. This exciting new finding allows for the development of treatments of underdeveloped organs, in particular the lungs of premature and growth restricted babies. We are also trialing this factor in unborn babies with defects to the kidneys and lungs of which there is currently no cure.
Sensitizing Tumours To Immunotherapy: Development Of An RNA-based Therapeutic For Pancreatic Adenocarcinoma That Targets The Immunosuppressive Tumour Microenvironment.
Funder
National Health and Medical Research Council
Funding Amount
$192,347.00
Summary
The blood vessels of tumours are highly abnormal resulting in leakiness and hypoxia within the microenvironment. These abnormalities contribute both to the pathology and also to resistance to treatment. We have developed a new drug that is able to inhibit vascular leak, better the response to therapies and improve disease outcome. This work will generate essential data for the development of this drug towards Clinical Trials through interaction with International Pharma.
Development Of A Safe Live Genetically Attenuated Blood Stage Malaria Vaccine
Funder
National Health and Medical Research Council
Funding Amount
$822,191.00
Summary
Malaria presents an enormous global health problem, and also has a significant impact on social and economic development in countries where the disease is endemic. Our project will produce a live genetically-modified vaccine against Plasmodium falciparum, the parasite that causes the form of malaria mostly deadly to humans. Our development plan will include the first ever clinical trials of a malaria vaccine of this kind and will look at vaccine safety and effectiveness.
Optimisation Of A Potent And Fast Acting Antimalarial Class That Is Orally Efficacious In Vivo
Funder
National Health and Medical Research Council
Funding Amount
$683,916.00
Summary
Malaria is a devastating disease that results in 600 000 deaths annually. Current therapeutics used to combat malaria have a limited duration of use in the clinic due to the onset of resistance. We have identified a highly active antimalarial series that we propose to further develop to meet the prerequisites required for partnership with the Medicines for Malaria Venture (MMV) for progression into the clinic.
OctapeptinX Potentiators To Treat XDR Gram-negative Infections
Funder
National Health and Medical Research Council
Funding Amount
$1,377,149.00
Summary
There is an urgent need for the development of new antibiotics to treat drug-resistant infections, with the World Health Organisation and other agencies warning of a critical threat to human health. Potentiators are drugs that help obsolete antibiotics regain activity against resistant bacteria. We aim to develop a novel class of potentiators, the octapeptins, to resurrect the activity of old antibiotics so they can be used to treat infections caused by highly-resistant Gram-negative bacteria.
Development Of A Modified Gp130 Ligand To Treat Obesity-induced Insulin Resistance
Funder
National Health and Medical Research Council
Funding Amount
$438,533.00
Summary
IC7 is a mixture of two naturally occurring proteins, CNTF and IL-6. These gp130 receptor ligands have been shown to have positive metabolic effects in humans, but individually they are not suitable for therapeutic use. IC7, the novel molecule this technology is based upon, is a combination of CNTF and IL-6 in a specific design to avoid the negative effects. Preliminary results suggest that IC7 has positive metabolic effects but further development is required to increase its effectiveness in tr ....IC7 is a mixture of two naturally occurring proteins, CNTF and IL-6. These gp130 receptor ligands have been shown to have positive metabolic effects in humans, but individually they are not suitable for therapeutic use. IC7, the novel molecule this technology is based upon, is a combination of CNTF and IL-6 in a specific design to avoid the negative effects. Preliminary results suggest that IC7 has positive metabolic effects but further development is required to increase its effectiveness in treating insulin resistance and type 2 diabetes.Read moreRead less
Pre-clinical Development Of A Novel Second Generation Chemotherapeutic For Cancer Therapy
Funder
National Health and Medical Research Council
Funding Amount
$584,907.00
Summary
Cancer cells have a high iron requirement for DNA synthesis and many clinical trials have shown that iron chelators are effective anti-cancer drugs. Their potential to act as anti-tumour agents has been confirmed by the entrance of the iron chelator, Triapine, into widespread NCI clinical trials. In this NHMRC Development Grant, we will perform toxicological studies to enable clinical trials of our most potent and selective anti-cancer agent to commence.