Self Adjuvanting CTL-Based Influenza Vaccines For Human Use
Funder
National Health and Medical Research Council
Funding Amount
$214,842.00
Summary
This project will generate novel vaccines that elicit cell-mediated immunity against influenza infection. The vaccines are totally synthetic and therefore not constrained by the limitations in manufacturing which currently confront egg-grown vaccines. These vaccines induce very strong immune responses because they target dendritic cells which are pivotal for induction of all immune responses. This targeting capability is due to a simple lipid molecule incorporated into the vaccine which is recog ....This project will generate novel vaccines that elicit cell-mediated immunity against influenza infection. The vaccines are totally synthetic and therefore not constrained by the limitations in manufacturing which currently confront egg-grown vaccines. These vaccines induce very strong immune responses because they target dendritic cells which are pivotal for induction of all immune responses. This targeting capability is due to a simple lipid molecule incorporated into the vaccine which is recognised by specific receptors on the surface of dendritic cells and also causes their maturation, a step which is essential for recognition by the immune system of potential pathogens. The technology to design and assemble these new vaccines is already.Read moreRead less
Using The Information Inherent In Immune Responses To Design Vaccines
Funder
National Health and Medical Research Council
Funding Amount
$526,571.00
Summary
The parts of viruses, bacteria and of cancer cells that are recognised by the immune system are called epitopes. Epitopes are generated from these agents by dendritic cells which are found in many parts of the body where they act as sentinels on the look out for dangerous organisms. Epitopes are very small pieces of the proteins against which immune responses are mounted and can be readily synthesised in the laboratory. If we were to design vaccines that are made of epitopes such that the immune ....The parts of viruses, bacteria and of cancer cells that are recognised by the immune system are called epitopes. Epitopes are generated from these agents by dendritic cells which are found in many parts of the body where they act as sentinels on the look out for dangerous organisms. Epitopes are very small pieces of the proteins against which immune responses are mounted and can be readily synthesised in the laboratory. If we were to design vaccines that are made of epitopes such that the immune response is focussed to those exact regions of infectious agents it could lead to an immune response that eliminates the agent. The problem is, however, that we usually do not know which part of the virus, bacterium or cancer cell is recognised as an epitope. So the identification of epitopes is a limitation to the design of epitope-based vaccines. Anyone who has encountered a virus, bacterium or tumour cell and who has raised an immune response will have developed antibodies and immune cells able to recognise the right parts of the infectious agent or cancer cell. These antibodies and immune cells now contain information about the epitopes. We will use antibodies and blood cells obtained from people immune to the disease to extract epitopes from a panel of protein fragments that represent the agent against which we wish to make vaccines. These newly discovered epitopes will then be incorporated into totally synthetic vaccines. These vaccines will also incorporate a simple lipid molecule which specifically targets and activates the dendritic cell that is key for the induction of potent immune responses. All of the technologies we propose are in place and we have proof of principle that the approach leads to the successful design of vaccines that are effective against infectious diseases and cancers.Read moreRead less