New Therapies Requiring Ultra Large Scale Monoclonal Ab Production In Microalgae
Funder
National Health and Medical Research Council
Funding Amount
$630,089.00
Summary
Monoclonal antibodies target pathogens and molecules with exquisite specificity, and are essential for therapeutics and diagnostics. They are currently made using high-tech/limited-capacity mammalian cell cultures which limit them to low-dose applications. We aim to enable new, high-dose antibody therapies (e.g. antiviral treatments, passive immunisation) via rapid, low-cost, dramatically larger-scale production of valuable medicinal antibodies in a photosynthetic-driven, green algae system.
Exploiting Anti-capsid Humoral Immunity Induced In Infants Receiving Gene Therapy For Spinal Muscular Atrophy To Engineer The Next Generation Of Gene Transfer Vectors
Funder
National Health and Medical Research Council
Funding Amount
$1,105,993.00
Summary
After 25 years of incremental progress the possibility of treating genetic disease by gene therapy has become a therapeutic reality. This has been achieved by harnessing the gene transfer power of viruses made harmless by genetic engineering. A major limitation is that up to 50% of patients are currently excluded by pre-existing immunity to these powerful tools. Using 'evolution in a dish', we will engineer a new generation of these tools capable of bypassing pre-existing immunity by stealth.
Developing New Immunotherapeutics Through Studying Immune Effectors In Situ
Funder
National Health and Medical Research Council
Funding Amount
$1,369,054.00
Summary
The immune system deploys pore forming proteins to clear viral and bacterial infections and to eliminate cancerous cells. The unwanted activities of these molecules, however, results in chronic disease and in transplant rejection. We aim to understand how pore forming immune weapons interact with our own cells, with the goal of using this information to develop new approaches to treat immune driven disease and to improve the success of transplantation therapy.
Developing Improved Therapies For Cytomegalovirus Infections By Overcoming Viral Strain Diversity.
Funder
National Health and Medical Research Council
Funding Amount
$1,126,820.00
Summary
Cytomegalovirus infection is the most common cause of infection-related disease in newborns and is one of the most common complications in transplant patients. Current treatments are not always successful and are associated with significant side-effects. We have therefore developed world first systems that can be used to develop safer, more effective treatments for this life-threatening infection. Our findings are likely to be applicable to other difficult to manage viral infections.
Manipulating Antibody Production To Maximise Memory In Vaccine Responses
Funder
National Health and Medical Research Council
Funding Amount
$1,084,424.00
Summary
Our immune system provides protection from germs. The secretion of germ-specific proteins (antibodies) is an integral component of this defence and the basis of virtually all vaccines. Pandemics of Influenza and SARS-CoV-2 and failure to develop vaccines against HIV and Malaria remind us that our strategies need urgent improvement. Increasing our understanding of how our body defends us by specifically targeting foreign structures will reveal avenues for successful, rational vaccine development.
The Ins And Outs Of Endocytosis Inhibition: Providing Diverse Opportunities For Treatment Of Incurable Cancers
Funder
National Health and Medical Research Council
Funding Amount
$912,353.00
Summary
The best new immune system anti-cancer drugs only work in ~30% of patients. We found a way to move the drug targets around in people's tumours temporarily to reverse resistance and have tested this in clinical trials. Here we propose to use immunology and the world's frontier electron microscope techniques to work out exactly what is happens to the tumours, immune cells and anti-cancer drugs when they interact in real clinical situations. The aim is to reach at least 60% patient response rate.