Characterisation and Stability of ISCOM Vaccines. ISCOMS® are particles comprising saponin, cholesterol and phospholipids which when mixed with proteins form potent vaccines. When proteins are associated with ISCOMs® a variety of different sized particles with various surface chemistries can be formed. This project aims to understand the physico-chemical mechanisms governing ISCOM® formation. This understanding will allow development of methods for controlling the size, characteristics and long- ....Characterisation and Stability of ISCOM Vaccines. ISCOMS® are particles comprising saponin, cholesterol and phospholipids which when mixed with proteins form potent vaccines. When proteins are associated with ISCOMs® a variety of different sized particles with various surface chemistries can be formed. This project aims to understand the physico-chemical mechanisms governing ISCOM® formation. This understanding will allow development of methods for controlling the size, characteristics and long-term stability of these particles. In addition the size and surface chemistry of the particles will be correlated with their effectiveness as vaccines. Both these outcomes will support the ongoing commercial development of ISCOM®-based vaccines at CSL.Read moreRead less
Development of purified antibodies that kill virus infected cells. This proposal will develop panels of purified and monoclonal antibodies that kill virus infected cells. These antibodies may show efficacy in preventing HIV infection. This is new technology that could subsequently be harnessed to protect or limit the devastating effects of chronic viruses such as HIV.
Enhancing immunogenicity of DNA vaccines by targeted delivery to antigen presenting cells. Vaccines have proven to be one of the most effective means of preventing infection and also provide promise as a treatment for cancer. However, the range of effective technologies that make possible the delivery of vaccines that can protect against a broad range of infections is limited. DNA based vaccines are attractive because they are relatively easy to produce against a wide range of infections. Howeve ....Enhancing immunogenicity of DNA vaccines by targeted delivery to antigen presenting cells. Vaccines have proven to be one of the most effective means of preventing infection and also provide promise as a treatment for cancer. However, the range of effective technologies that make possible the delivery of vaccines that can protect against a broad range of infections is limited. DNA based vaccines are attractive because they are relatively easy to produce against a wide range of infections. However, DNA vaccines often provide poor protection against infections. This project will explore a unique technology developed in Australia and that will greatly improve the effectiveness of DNA vaccines against a broad range of diseases. Read moreRead less
The roles of novel pathways in the activation and regulation of the adaptive immune response in health and disease. The immune system is designed to protect us against infection and vaccines exploit this with great success in preventing many infections. However, the immune system can also 'fail' and attack the body in a process called autoimmunity e.g. destroying joints in rheumatoid arthritis. This proposal will define how white blood cells work to make better vaccines against infection and ho ....The roles of novel pathways in the activation and regulation of the adaptive immune response in health and disease. The immune system is designed to protect us against infection and vaccines exploit this with great success in preventing many infections. However, the immune system can also 'fail' and attack the body in a process called autoimmunity e.g. destroying joints in rheumatoid arthritis. This proposal will define how white blood cells work to make better vaccines against infection and how these same immune cells can malfunction to create autoimmune diseases like Crohn's disease.Read moreRead less
Identifying the major targets of protective antibodies against malaria. This project aims to understand how immunity to malaria develops and to use this knowledge to develop effective vaccines against malaria. The development of a malaria vaccine would be of great value in Australia's region where malaria is a leading cause of death and illness and impairs economic development. The project will advance our knowledge of how the immune system fights infections and will contribute to building Austr ....Identifying the major targets of protective antibodies against malaria. This project aims to understand how immunity to malaria develops and to use this knowledge to develop effective vaccines against malaria. The development of a malaria vaccine would be of great value in Australia's region where malaria is a leading cause of death and illness and impairs economic development. The project will advance our knowledge of how the immune system fights infections and will contribute to building Australia's strength in infectious diseases research and developing strategies to combat important infections. The project will help build and maintain expertise in developing vaccines in Australia and the approaches used and knowledge gained will be applicable to understanding and combating other important infections.Read moreRead less
Evaluation of the potential of colostrum-derived anti-influenza antibody for the treatment and prevention of influenza. The project addresses a common disease problem, influenza, with a novel application of antibody technology. The technology may safely provide protection and cost effective treatment for those members of the community who are least protected by current approaches. The product can be cost-effective and readily available to enable the public to self medicate in high risk situation ....Evaluation of the potential of colostrum-derived anti-influenza antibody for the treatment and prevention of influenza. The project addresses a common disease problem, influenza, with a novel application of antibody technology. The technology may safely provide protection and cost effective treatment for those members of the community who are least protected by current approaches. The product can be cost-effective and readily available to enable the public to self medicate in high risk situations, or to be used as a public health tool in situtions to control outbreaks in those most susceptible to serious disease. The production system that enabled the creation of the technology is the advanced Australian dairy industry. Farmers with herds participating will receive a significant income benefit from, what was before, largely a waste product.Read moreRead less
Adoptive Cell Transfer Incorporating Vaccination (ACTIV) Therapy For Cancer
Funder
National Health and Medical Research Council
Funding Amount
$601,950.00
Summary
We have made a breakthrough in a new treatment for cancer that can destroy large tumours in mice. The treatment involves a transfusion of white blood cells and an injection of a vaccine. In this project, we will seek to understand how the treatment works, and apply it to human white blood cells in preparation for a clinical trial in cancer patients.
Unrestricted antigen recognition by T lymphocytes. This project aims to investigate the unrestricted T cell repertoire; the molecular and structural basis of antigen recognition by unrestricted T cells; and the development of unrestricted T cells. T lymphocytes typically are restricted to detecting foreign molecules (antigens) on the cell membrane in association with specialised antigen-presenting molecules encoded within the highly polymorphic major histocompatibility (MHC) locus (MHC restricti ....Unrestricted antigen recognition by T lymphocytes. This project aims to investigate the unrestricted T cell repertoire; the molecular and structural basis of antigen recognition by unrestricted T cells; and the development of unrestricted T cells. T lymphocytes typically are restricted to detecting foreign molecules (antigens) on the cell membrane in association with specialised antigen-presenting molecules encoded within the highly polymorphic major histocompatibility (MHC) locus (MHC restriction). T lymphocytes that can recognise antigens in the absence of MHC or MHC like molecules challenges a major paradigm in the field of immunology. As T cell based therapy underpins treatments for cancer and infection, new mechanisms of T cell activation that are independent of patient genotype should ultimately create opportunities for therapeutic and commercial development, leading to both health and economic benefits.Read moreRead less
CD1C-LIPID-REACTIVE T CELLS. The immune system patrols our body examining molecules such as proteins and lipids that signal whether or not everything is ok. While protein recognition by the immune system is well understood, our knowledge of the fundamental features of lipid detection is poor. This project will investigate the detection of lipid molecules that are presented to the immune system in association with a molecule known as CD1c. The aims are to understand: 1. The cells that respond to ....CD1C-LIPID-REACTIVE T CELLS. The immune system patrols our body examining molecules such as proteins and lipids that signal whether or not everything is ok. While protein recognition by the immune system is well understood, our knowledge of the fundamental features of lipid detection is poor. This project will investigate the detection of lipid molecules that are presented to the immune system in association with a molecule known as CD1c. The aims are to understand: 1. The cells that respond to these lipids; 2. The cellular receptors that bind to these lipids; 3. The types of lipids involved in this process. This work is essential for us to understand lipid-based immunology which is critical if we ultimately wish to harness this to improve human health.Read moreRead less
Generating Stronger And Smarter T Cells For Cancer Therapy
Funder
National Health and Medical Research Council
Funding Amount
$310,332.00
Summary
White blood cells from cancer patients can be modified in the laboratory to react against tumours. These cells can then be given back to the patient, which can sometimes cause cancer regression. However, often the white blood cells lack strength, or they lack the ability to distinguish between tumour and normal tissues of the body. In this project we seek to make stronger and smarter white blood cells that can deliver a lethal hit against tumours without damaging essential organs of the body.