Immunoregulation Of Subsets Of Memory CD8+ T Cells
Funder
National Health and Medical Research Council
Funding Amount
$233,867.00
Summary
Information will be sought on the properties of T cells, a class of white blood cells that play a vital role in combating infectious agents. Using mouse models, subsets of T cells that carry immunological memory will be studied and assessed for their rate of cell division and dependence on soluble messengers known as cytokines and other stimuli. The data will provide useful knowledge on the causes of autoimmune diseases (such as rheumatoid arthritis, type 1 diabetes and lupus) and help in the de ....Information will be sought on the properties of T cells, a class of white blood cells that play a vital role in combating infectious agents. Using mouse models, subsets of T cells that carry immunological memory will be studied and assessed for their rate of cell division and dependence on soluble messengers known as cytokines and other stimuli. The data will provide useful knowledge on the causes of autoimmune diseases (such as rheumatoid arthritis, type 1 diabetes and lupus) and help in the development of successful second generation vaccines.Read moreRead less
The Role Of Dendritic Cell Subsets In The Decision Between T Cell Tolerance And Immunity
Funder
National Health and Medical Research Council
Funding Amount
$445,009.00
Summary
The immune system protects the body against infection by means of a population of circulating white blood cells called lymphocytes. Each lymphocyte has on its surface its own particular receptor which recognises only one out of the universe of possible substances. Receptors are generated in a semi-random way, using a combination of elements encoded by the genes, and it is possible to generate receptors that react with the body itself, rather than with invading organisms. If the cells bearing the ....The immune system protects the body against infection by means of a population of circulating white blood cells called lymphocytes. Each lymphocyte has on its surface its own particular receptor which recognises only one out of the universe of possible substances. Receptors are generated in a semi-random way, using a combination of elements encoded by the genes, and it is possible to generate receptors that react with the body itself, rather than with invading organisms. If the cells bearing these self-reactive receptors become activated, an autoimmune disease ensues. The question of how lymphocytes can tell the difference between the body itself and foreign organisms is of major interest to immunologists. One of the first ideas was that self-reactive lymphocytes are inactivated by making reactions early in life. Despite the simplicity and intellectual appeal of this idea, it is inconsistent with a large body of experimental evidence. On the basis of number of new experiments, I have proposed an alternative model of self tolerance for one of the subsets of lymphocytes. In this model, the cells that help lymphocytes to recognise particular substances possess the property of distinguishing self from foreign, and pass that information on. The aim of this project is to provide direct experimental evidence in support of the model. Many of our attempts to deal with medical problems related to the immune system have been hampered by our lack of understanding of exactly how immune tolerance is controlled. If my model proves to be correct, it will be possible to manipulate immune responses with far greater effectiveness, providing new treatments for autoimmune disease, allergy, graft rejection and vaccination.Read moreRead less
Role Of Dendritic Cell Subsets In The Generation Of CD4 T Cell Memory
Funder
National Health and Medical Research Council
Funding Amount
$563,554.00
Summary
This project studies the mechanisms responsible for establishing immunologic memory that is generated by vaccination and determines its efficacy. We aim to identify and study previously unacknowledged factors that critically affect the efficacy of vaccination. The results will be significant for both preventative and therapeutic vaccination (cancer, autoimmunity) and will help us to design new vaccines to improve immune function in infection, autoimmunity and cancer.
I am an immunologist-cell biologist investigating the regulation of human immune responses in health and disease. The overall goal of this work is to improve immunity in individuals with immunodeficiencies, or during vaccination, or to attenuate immune re