Tumour Antigen Cross-presentation: Efficiency, Biology And Role Of Inhibitory B7 Homologue Molecules
Funder
National Health and Medical Research Council
Funding Amount
$469,500.00
Summary
It is now known that the body s immune system often attempts to attack cancers but this response is generally fairly weak. It was previously thought that one of the main reasons for this failure was that the immune system was ignorant of the presence of the cancer until too late. Our recent work over the past few years has shown that this is not the case. A process called cross-presentation seems to efficiently and continuously expose the cancer to the body s anti-cancer killer T-cells. This gra ....It is now known that the body s immune system often attempts to attack cancers but this response is generally fairly weak. It was previously thought that one of the main reasons for this failure was that the immune system was ignorant of the presence of the cancer until too late. Our recent work over the past few years has shown that this is not the case. A process called cross-presentation seems to efficiently and continuously expose the cancer to the body s anti-cancer killer T-cells. This grant will work out exactly how efficient that process is, which cells are responsible and some aspects of how it happens. We will also study whether some recently-discovered braking molecules, which slow down immune responses and which could be 'applying the brakes' to anti-cancer responses. This could lead to new approaches to therapy eg by removing these brakes during vaccination therapy.Read moreRead less
Characterisation Of The Biochemical And Cell Biological Mechanisms Of Cross-presentation In Dendritic Cells
Funder
National Health and Medical Research Council
Funding Amount
$303,828.00
Summary
The immune system possesses several mechanisms to fight viruses and cancer. One of these mechanisms consists of recruiting anti-virus or anti-cancer killer cells. These killer cells are recruited by specialized cells known as Dendritic Cells (DC). The DC are distributed all over the body, and can detect the presence of viruses or cancer cells. When they do, they take up chunks of the virus or cancer cells, break them into small pieces called antigens, and display these antigens on their surface, ....The immune system possesses several mechanisms to fight viruses and cancer. One of these mechanisms consists of recruiting anti-virus or anti-cancer killer cells. These killer cells are recruited by specialized cells known as Dendritic Cells (DC). The DC are distributed all over the body, and can detect the presence of viruses or cancer cells. When they do, they take up chunks of the virus or cancer cells, break them into small pieces called antigens, and display these antigens on their surface, where they can be seen by the killer cells. This initiates an immune response whereby the killer cells seek and destroy the viruses and cancer cells. We are trying to harness the ability of DC to initiate immune responses in order to design more efficient vaccines to fight viruses and cancer. Our goal is to deliver vaccines that will directly target the DC and induce the formation of protective killer cells. These strategies require us to overcome two problems. The first is that we possess different types of DC, which play distinct functions, but we do not know which type is the most effective at recruiting killer cells, or why. The second problem is that we need to understand which vaccine design is the most effective at promoting presentation of the antigens that will be used to induce killer cells. The goal of this research project is to learn how we should deliver antigens to which DC type to generate the best possible vaccine.Read moreRead less
Evaluation Of Immune Responses To Multiple Tumour Antigens During Tumour Growth
Funder
National Health and Medical Research Council
Funding Amount
$451,980.00
Summary
It is becoming increasingly clear that cancerous tissues are not hidden from the body's immune system and yet, despite the generation of tumour-specific T cells and antibodies, the immune system does not often destroy solid tumour. Tumours express a large number of potential antigens (molecules in or on cancer cells that can be recognised by the immune system), but T cell responses to tumour antigens may be limited to only a few of these antigens (the dominating ones). These T cells could compet ....It is becoming increasingly clear that cancerous tissues are not hidden from the body's immune system and yet, despite the generation of tumour-specific T cells and antibodies, the immune system does not often destroy solid tumour. Tumours express a large number of potential antigens (molecules in or on cancer cells that can be recognised by the immune system), but T cell responses to tumour antigens may be limited to only a few of these antigens (the dominating ones). These T cells could compete with any other T cells that have been, or are being, generated, preventing their expansion and development into fully functional T cells. If this is true, then tumours will 'escape' immune mediated destruction, as a T cell response to only a few antigens is not likely to be enought to seriously perturb growing tumours. In this grant we will use a well established mouse model of cancer to evaluate immune responses to tumour antigens during tumour growth and try to understand why other potential antigens do not invoke a fully functional immune response. If we are successful, we will have made advances that could lead to new therapies for cancer.Read moreRead less
Investigation Of The Roles Of Foxn1, Wnts And Autophagy In The Development And Function Of Thymic Epithelial Cells.
Funder
National Health and Medical Research Council
Funding Amount
$220,222.00
Summary
The immune system usually protects the body from infections. Occasionally, the immune system mistakenly recognises components of the body as foreign and attacks them, resulting in autoimmune diseases such as diabetes, multiple sclerosis and arthritis. An organ called the thymus is responsible for educating the immune system, and preventing autoimmune diseases. The proposed project will explore how the thymus develops, and how it teaches the immune system to ignore normal components of the body.