Mechanisms Of Dendritic Cell-induced T-cell Tolerance
Funder
National Health and Medical Research Council
Funding Amount
$314,773.00
Summary
Autoimmune diseases constitute a significant medical problem in the developed world and are increasing in incidence. Many control mechanisms exist in the body, but in people with genetic suceptibility to autoimmune disease, the mechanisms fail and the body's immune sytem attacks normal tissues or organs. We have developed a new approach to using the cells which train the immune system to re-educate the cells that would otherwise attack normal healthy tissues in autoimmune-prone individuals. Thes ....Autoimmune diseases constitute a significant medical problem in the developed world and are increasing in incidence. Many control mechanisms exist in the body, but in people with genetic suceptibility to autoimmune disease, the mechanisms fail and the body's immune sytem attacks normal tissues or organs. We have developed a new approach to using the cells which train the immune system to re-educate the cells that would otherwise attack normal healthy tissues in autoimmune-prone individuals. These cells (dendritic cells) are genetically modified to express the molecular targets of the autoimmune response. This in turn switches off the response to these targets. In this project we will explore how these cells can be used to turn off cells of the immune system and if cells of the immune system in turn control the dendritic cell's ability to do this.Read moreRead less
Autoimmune diseases constitute a significant medical problem in the developed world and are increasing in incidence. Many control mechanisms exist in the body, but in people with genetic susceptibility to autoimmune disease, the mechanisms fail and the body's immune system attacks normal tissues or organs. We have developed a new approach, using the cells which train the immune system, to re-educate the cells that would otherwise attack normal healthy tissues in autoimmune-prone individuals. The ....Autoimmune diseases constitute a significant medical problem in the developed world and are increasing in incidence. Many control mechanisms exist in the body, but in people with genetic susceptibility to autoimmune disease, the mechanisms fail and the body's immune system attacks normal tissues or organs. We have developed a new approach, using the cells which train the immune system, to re-educate the cells that would otherwise attack normal healthy tissues in autoimmune-prone individuals. These cells (dendritic cells) are genetically modified to express the molecular targets of the autoimmune response. This in turn switches off the response to these targets. In this project, we will explore how these cells can be used to turn off the harmful cells present in the immune system.Read moreRead less
Dissecting The Contribution Of CD103+ DC To Priming Of Virus-specific CD8 T Cells
Funder
National Health and Medical Research Council
Funding Amount
$336,767.00
Summary
Dendritic cells are key regulators of T cell responses against pathogens. This project will examine the contribution and individual function of distinct dendritic cell to the initiation of adaptive immune responses against herpes-simplex virus. Unraveling the delicate interplay between different dendritic cells will provide novel insights into host-pathogen interactions and will have important implications for the development of efficient vaccination strategies.
Cytokine Production By Human Dendritic Cells - Is Less More?
Funder
National Health and Medical Research Council
Funding Amount
$378,107.00
Summary
Dendritic cells (DC) are specialist white blood cells responsible for initiating and coordinating immune responses against pathogens and cancer. DC act as sentinels of the immune system and are found throughout the body where they are in constant surveillance for infections or danger signals. Once armed they traffic to the lymph nodes, where they activate T lymphocytes and NK cells, which are then responsible for mounting an attack against the infection or tumour. The complex mechanisms of how d ....Dendritic cells (DC) are specialist white blood cells responsible for initiating and coordinating immune responses against pathogens and cancer. DC act as sentinels of the immune system and are found throughout the body where they are in constant surveillance for infections or danger signals. Once armed they traffic to the lymph nodes, where they activate T lymphocytes and NK cells, which are then responsible for mounting an attack against the infection or tumour. The complex mechanisms of how dendritic cells respond to danger, and how they direct T and NK cells to induce specific immune responses appropriate for a particular infection are poorly understood. Most of our current knowledge of DC has been obtained from mouse studies, and it is believed that secretion of cytokines by dendritic cells play an important role. Human dendritic cells have been difficult to identify, however we have pioneered methods to isolate and characterise them from human tissue. We will therefore investigate the production of cytokines from human DC subsets and the role they play in the induction of immune responses. DC can be instructed in the test tube to recognise a cancer and mount an immune response, and this is a promising new therapy for cancer. Our work will uncover fundamental information about the most potent danger signal, the type of DC and the most important cytokines for inducing immune responses against cancers, and will therefore assist in the development of cancer vaccines.Read moreRead less
Co-administration Of DNA Encoding Co-stimulatory Molecules Enhances The Efficacy Of Immune Response To Foreign Antigen
Funder
National Health and Medical Research Council
Funding Amount
$182,000.00
Summary
Vaccines to prevent or treat infectious diseases and some cancers are urgently needed. Infected cells and some cancer cells display unique proteins which the body's immune system can recognises as 'foreign'. The body will then mount an immune response, which, if successful, will eradicate the infected or cancerous cells. Dendritic cells (DCs) initiate the body's immune response by instructing other immune cells to mount a response. For a vaccine to be successful it is important that the vaccine ....Vaccines to prevent or treat infectious diseases and some cancers are urgently needed. Infected cells and some cancer cells display unique proteins which the body's immune system can recognises as 'foreign'. The body will then mount an immune response, which, if successful, will eradicate the infected or cancerous cells. Dendritic cells (DCs) initiate the body's immune response by instructing other immune cells to mount a response. For a vaccine to be successful it is important that the vaccine activates the DCs in the right way. We propose to activate DCs by vaccinating with DNA encoding recently identified costimulatory molecules, as well as DNA encoding the foreign antigen. Our earlier work leads us to believe that this will enhance the immune response, and lead to a more effective state of immunityRead moreRead less
TARGETING THE HUMAN CROSS-PRIMING DENDRITIC CELLS FOR IMMUNOTHERAPY
Funder
National Health and Medical Research Council
Funding Amount
$589,544.00
Summary
Specialized white blood cells called dendritic cells (DCs) are essential to inducing the immune system to eradicate cancers and viral infections in mice. We have defined human DC subsets and related their functional capacities to the mouse DC subsets. We will now identify the human DC subsets involved in the induction of cancer and viral immune responses and use this information to develop clinical therapeutic cancer vaccination trials.
Melanoma is a devastating disease. We are investigating new ways to treat and cure this form of cancer. Specifically, we are identifying how the body’s immune system interacts with melanoma and exploring new ways to use one’s own immune cells to destroy the cancer. This is achieved by understanding the interplay between various immune cells during melanoma and current therapies. This knowledge allows us to manipulate the immune cells providing better treatment.
Cellular And Molecular Pathways Regulating Airway Mucosal Dendritic Cells During Onset Of Allergic Airways Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$491,065.00
Summary
Allergic airways inflammation (AAI), which leads to debilitating disease such as allergic asthma, is a condition medaited by the abnormal activity of the immune system towards essentially harmless inhlaed allergens. Two special cell types of the immmune system that are important in controlloing the onset and persistence of AAI are known as dendritic cells (DC) and T helper type 2 cells (Th2 cells). DC are located in all parts of the respiratory tract and are important in providing control signal ....Allergic airways inflammation (AAI), which leads to debilitating disease such as allergic asthma, is a condition medaited by the abnormal activity of the immune system towards essentially harmless inhlaed allergens. Two special cell types of the immmune system that are important in controlloing the onset and persistence of AAI are known as dendritic cells (DC) and T helper type 2 cells (Th2 cells). DC are located in all parts of the respiratory tract and are important in providing control signals to Th2 cells to become switched on and start to react to an inhaled allergen. Th2 cells then generate a variety of signals that initiate an cascade of immune responses towards the allergen that ultimately can lead to AAI and asthma if left unchecked, however this process remians relatively poorly understood. This project aims to examine how DC and Th2 interact, and at what level DC activity can be regulated so that unchecked Th2 immunity to harmless inhaled allergens can be controlled. The hope is to be able to identify new cellular and molecular pathways that can eventually become the target for new generations of preventative and therapeutic drugs.Read moreRead less