IMMUNOTHERAPY OF MELANOMA WITH DENDRITIC CELL VACCINES
Funder
National Health and Medical Research Council
Funding Amount
$496,980.00
Summary
Melanoma is a skin cancer which continues to increase in incidence in Australia. It is a significant cause of morbidity and mortality because of its tendency to spread from skin to other body sites. It is largely resistant to chemotherapy. Immunological approaches to its treatment hold promise but there is a need to develop more effective vaccines to assist in treatment. Preliminary studies suggest that injection of dendritic cells primed with melanoma antigens induce strong immune responses and ....Melanoma is a skin cancer which continues to increase in incidence in Australia. It is a significant cause of morbidity and mortality because of its tendency to spread from skin to other body sites. It is largely resistant to chemotherapy. Immunological approaches to its treatment hold promise but there is a need to develop more effective vaccines to assist in treatment. Preliminary studies suggest that injection of dendritic cells primed with melanoma antigens induce strong immune responses and regression of melanoma. If this can be confirmed it will represent a significant advance in treatment of the disease. The studies in the proposal are to investigate whether a new form of treatment based on immunisation with dendritic cells sensitised with tumour antigens will prove to be more effective than existing treatments. Dendritic cells are responsible for stimulating immune responses and are grown from the patient's blood. They are then sensitised with tumour antigens and injected into the lymph nodes of the patient. The study will also measure immune responses during the immunisation procedure and assess whether these measures can predict clinical responses in the patient. If the study is successful in its objectives it will assist in development of more effective treatment of melanoma.Read moreRead less
A Vaccine To Break Tolerance To Cervical Carcinoma Oncoprotein
Funder
National Health and Medical Research Council
Funding Amount
$212,036.00
Summary
Evidence that cervical cancer is caused by Human Papillomavirus is compelling. Once the virus enters the cells of the cervix, it produces a protein named E7 which functions to make the cells cancerous. Cervical cancer is the fifth commonest cause of death in women in Australia, and the major killer of women world-wide. The E7 protein is the ideal target for a vaccine since it occurs only in the tumour cells. Cervical tumour cells are killed by specialised immune system cells termed CTLs which re ....Evidence that cervical cancer is caused by Human Papillomavirus is compelling. Once the virus enters the cells of the cervix, it produces a protein named E7 which functions to make the cells cancerous. Cervical cancer is the fifth commonest cause of death in women in Australia, and the major killer of women world-wide. The E7 protein is the ideal target for a vaccine since it occurs only in the tumour cells. Cervical tumour cells are killed by specialised immune system cells termed CTLs which recognised fragments of the E7 molecule on their surface, bound to 'self' MHC molecules. Our laboratory has developed several mouse models of human cervical cancer, and has worked out which parts of the E7 protein are important in developing an appropriate immune response to control tumour growth. However a major finding is that the E7 molecules render the CTL cell population incapable of making an appropriate response to kill the tumour cells. We believe that this process, termed 'tolerance induction' can be overcome by using a novel approach as follows. Specialised antigen presenting cells , termed 'dendritic cells' (DCs) will be isolated and made to produce E7 protein by infecting them with a geneticlly modified virus (Adenovirus) which expresses E7 and specialised DC activators molecules, but is incapable of itself replicating. The dendritic cells will be re-introduced into the host as a vaccine, and will present the E7 to the immune system in such a way that tolerance will be broken. In other words the vaccine recipient will again be able to make a CTL immune response to the E7 protein in their tumours, and so be able to kill the tumour cells.Read moreRead less
Mechanisms Of Action Of The Antigen Presenting Cells That Impair Lymphoma-specific Cytotoxic T Lymphocytes
Funder
National Health and Medical Research Council
Funding Amount
$295,983.00
Summary
Our immune systems are continually fighting cancer. However, the cancer cells occasionally acquire mutations that enable them to subvert the immune system. Usually they do this by hiding under the appearance of normal tissue, but sometimes they activate the very mechanisms that are in place to shut-down immune responses when these are no longer necessary. The goal of this proposal is to identify such mechanisms and find ways of bypassing them, thus restoring anti-tumour activity in patients.
The Role Of TAP And MHC Class I Expression In The Response To Melanoma Immunotherapy Using Autolgous Dendritic Cells
Funder
National Health and Medical Research Council
Funding Amount
$337,811.00
Summary
Treatment for patients with malignant melanoma whose disease has spread, or metastasised, to sites distant from the original melanoma is usually unsuccessful. At this stage of the disease there is no known curative treatment with conventional surgery, radiation or chemotherapy. Occasionally, however, melanoma in its early stages is successfully dealt with by the natural response of the immune system. In these cases, the immune system generates cancer-controlling killer T lymphocytes that enter t ....Treatment for patients with malignant melanoma whose disease has spread, or metastasised, to sites distant from the original melanoma is usually unsuccessful. At this stage of the disease there is no known curative treatment with conventional surgery, radiation or chemotherapy. Occasionally, however, melanoma in its early stages is successfully dealt with by the natural response of the immune system. In these cases, the immune system generates cancer-controlling killer T lymphocytes that enter the melanoma and kill the tumour cells. Killer T lymphocytes are generated by the lymph glands when the immune system is presented with melanoma cell components, or antigens, by specialised cells known as dendritic cells. This project consists of a clinical trial that aims to boost the natural ability of the immune system to generate killer cells by growing dendritic cells from the blood, mixing them with melanoma antigens, and then inject the mixture. When injected into the skin, dendritic cells quickly move to lymph glands to generate killer T lymphocytes. T lymphocytes can find their way to melanoma deposits all over the body. The reasons for response or non-response to the vaccination will particularly be assessed in this project.Read moreRead less
The Role Of CD4+ T Cells In The Tumour Killing By CD8+ Memory T Cells.
Funder
National Health and Medical Research Council
Funding Amount
$303,000.00
Summary
It has been observed that human cancers grow in spite of the presence of tumour antigen specific memory CD8+ tumour killer T cells in the body. These memory killer cells are unable to kill the cancer. Our research work in a mouse model indicates that the CD8+ T cells can be activated to kill cancers if cancer antigen specific CD4+ T helper cells are activated. The mechanism how this happens is not clear. The role of regulatory or suppressor CD4+ T cells are also not known. In this proposal we wi ....It has been observed that human cancers grow in spite of the presence of tumour antigen specific memory CD8+ tumour killer T cells in the body. These memory killer cells are unable to kill the cancer. Our research work in a mouse model indicates that the CD8+ T cells can be activated to kill cancers if cancer antigen specific CD4+ T helper cells are activated. The mechanism how this happens is not clear. The role of regulatory or suppressor CD4+ T cells are also not known. In this proposal we wish to study the mechanism of how CD8+ memory T cells get activated to cancer killer cells by the CD4+ T helper cells. This information will help us to design better immunotherapies for cancer patients.Read moreRead less