Development Of CD96 Antibodies For Cancer Treatment
Funder
National Health and Medical Research Council
Funding Amount
$820,821.00
Summary
There is an unmet medical need to develop new immunotherapies that are safer and potentially allow the treatment of a broader range of cancers. Inhibiting the immune checkpoint CD96 function represents an opportunity that may parallel and indeed complement the activity and impact of other lymphocyte checkpoint inhibitors in human cancer (eg. CTLA-4 and PD1/PD-L1). While developing a new human therapeutic antibody we will also learn more about an important checkpoint in the immune response.
Innate Immune Effector Recruiting Potential Of HIV-1 Human Vaccine Induced Antibodies
Funder
National Health and Medical Research Council
Funding Amount
$333,018.00
Summary
A HIV vaccine is urgently needed. A recent human HIV vaccine trial has indicated that Antibody Dependent Cellular Cyotoxicity (ADCC) may be protective. Understanding the role of ADCC HIV-specific antibodies in the context of vaccination has now become one of the most critical questions in HIV vaccine research today. This research aims to comprehensively study ADCC in samples from various HIV Vaccine trials to develop improved vaccine strategies to prevent the devastating consequences of HIV/AIDS ....A HIV vaccine is urgently needed. A recent human HIV vaccine trial has indicated that Antibody Dependent Cellular Cyotoxicity (ADCC) may be protective. Understanding the role of ADCC HIV-specific antibodies in the context of vaccination has now become one of the most critical questions in HIV vaccine research today. This research aims to comprehensively study ADCC in samples from various HIV Vaccine trials to develop improved vaccine strategies to prevent the devastating consequences of HIV/AIDS.Read moreRead less
Stability Engineering Of Human Antibody Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$421,104.00
Summary
Therapeutic monoclonal antibodies are among the fastest growing class of drugs with more than $30 billion sales in 2011. Unfortunately, antibodies often display limited stability and a tendency to aggregate. This greatly hinders their development and results in high failure rates of otherwise promising candidates. We have recently identified mutations that render human antibodies resistant to aggregation. Here we apply this technology to a monoclonal antibody candidate developed by a leading pha ....Therapeutic monoclonal antibodies are among the fastest growing class of drugs with more than $30 billion sales in 2011. Unfortunately, antibodies often display limited stability and a tendency to aggregate. This greatly hinders their development and results in high failure rates of otherwise promising candidates. We have recently identified mutations that render human antibodies resistant to aggregation. Here we apply this technology to a monoclonal antibody candidate developed by a leading pharmaceutical company.Read moreRead less
Heparin Induced Thrombocytopenia (HIT): Further Characterization Of Disease Mechanism Will Improve Patient Treatment
Funder
National Health and Medical Research Council
Funding Amount
$456,484.00
Summary
Thrombus formation occurs as a side effect of heparin treatment in many patients. This condition is called Heparin Induced Thrombocytopenia (HIT). The clots may be stabilised by secretions from cells called neutrophils. In this project we will study this possibility using a mouse model of HIT and will explore therapeutic approaches to inhibit clot stabilisation.
Monoclonal antibodies, such as the breast cancer therapeutic Herceptin, have revolutionised the treatment of cancer and inflammatory conditions. Will over $30 billion sales in 2011, they have also spawned a growing biotech industry. We have a generated a highly specific monoclonal antibody, which has shown efficacy in models of disease. This project will further advance and develop this monoclonal, allowing us to initiate clinical studies in patients.
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.
SIGN Receptors And The Antiinflammatory Activity Of Sialylated IgG Fcs
Funder
National Health and Medical Research Council
Summary
IgG antibodies are a crucial component of the immune system, and significantly contribute to host protection against cancer and infectious diseases. Additionally, therapeutic IgG antibodies have been developed for treatment of cancer and inflammatory diseases. The studies proposed herein will elucidate one important aspect of how IgG antibodies act as anti-inflammatory agents, and may lead to the design of more effective IgG based therapies for the treatment of inflammatory diseases or cancer.
Monoclonal antibodies, such as the cancer therapeutic Pembrolizumab, have revolutionised the treatment of cancer and many inflammatory conditions. With over $100 billion in sales in 2018, they also underpin a growing biotech industry. We have developed a highly specific, high affinity therapeutic antibody candidate, and demonstrated efficacy in animal models of malignancy. This project will advance and develop this monoclonal, allowing us to initiate clinical studies in patients.