Cellular And Molecular Events During Antigen Dependent B Cell Differentiation
Funder
National Health and Medical Research Council
Funding Amount
$283,329.00
Summary
The immune system is essential for protecting us against invasion from without by viruses and bacteria and invasion from within by cancer cells. Among the white blood cells making up this system are those responsible for producing antibodies. To ensure that all possible infections and tumours can be recognised, the body needs to manufacture a very large number of these cells on a continuous basis. The aim of this project is to work out the mechanism responsible for controlling their production a ....The immune system is essential for protecting us against invasion from without by viruses and bacteria and invasion from within by cancer cells. Among the white blood cells making up this system are those responsible for producing antibodies. To ensure that all possible infections and tumours can be recognised, the body needs to manufacture a very large number of these cells on a continuous basis. The aim of this project is to work out the mechanism responsible for controlling their production and function using a novel experimental system. By pinpointing the different stages involved in antibody production in the normal host we should be in a better position to make longer lasting vaccines in the future and to understand what goes wrong with these white cells in disease. In particular, the results should shed light on the chronic form of leukaemia called myeloma and some of the autoimmune disorders like the rheumatic diseases which occur when the antibodies being produced attack our own tissues.Read moreRead less
I am an immunologist determining the development and function of the dendritic cell system, including its role in autoimmunity and resistance to infection.
Phase 1 Clinical Trial Of Autologous Dendritic Cells To Induce Antigen-specific Tolerance
Funder
National Health and Medical Research Council
Funding Amount
$165,125.00
Summary
We have previously generated modified dendritic cells in mice with the ability to suppress immune responses once they have started. This project will develop the dendritic cell vaccine as a platform technology for human clinical use. We aim to demonstrate, in a phase I clinical trial, the capacity of modified human autologous dendritic cells to suppress the immune response to a model antigen in a group of healthy volunteers and a group of patients with rheumatoid arthritis taking drugs for their ....We have previously generated modified dendritic cells in mice with the ability to suppress immune responses once they have started. This project will develop the dendritic cell vaccine as a platform technology for human clinical use. We aim to demonstrate, in a phase I clinical trial, the capacity of modified human autologous dendritic cells to suppress the immune response to a model antigen in a group of healthy volunteers and a group of patients with rheumatoid arthritis taking drugs for their diseaseRead moreRead less
CONTINUING MECHANISTIC STUDIES OF UVA PHOTOIMMUNOPROTECTION
Funder
National Health and Medical Research Council
Funding Amount
$261,113.00
Summary
The UVB portion of sunlight causes sunburn, tanning, skin cancer, and suppresses immune function. Longer wavelength UVA is significantly less damaging, may contribute to photoageing and damage to deeper skin layers, but has been much less well studied. UVB-induced immunosuppression appears to be a prerequisite for skin cancer, and experimental protection from the immunosuppression results also in reduced severity of the long-term skin cancer outcome. We have identified a protective effect by UVA ....The UVB portion of sunlight causes sunburn, tanning, skin cancer, and suppresses immune function. Longer wavelength UVA is significantly less damaging, may contribute to photoageing and damage to deeper skin layers, but has been much less well studied. UVB-induced immunosuppression appears to be a prerequisite for skin cancer, and experimental protection from the immunosuppression results also in reduced severity of the long-term skin cancer outcome. We have identified a protective effect by UVA radiation against UVB-immunosuppression when UVA is administered to mice at non-burning environmentally relevant doses. This was an important and unprecedented finding, and is supported by recent observations also in humans. The aim of the present study is to clarify the mechanisms by which this resistance to UVB-induced immunosuppression is achieved, according to 2 main hypotheses: 1. UVA interferes with the actions of cis-urocanic acid, a natural epidermal UV-photoproduct that appears to initiate the immunosuppression by interacting with histamine. 2. UVA alters the balance of immunological control and thus activates normal antioxidant defences of the skin such as metallothionein and haem oxygenase, which antagonise the apparent oxidative requirement for UVB-immunosuppression. These pathways lead to the prediction that increasing the UVA component of the incident radiation will reduce skin cancer development. Humans typically receive disproportionately large UVA doses sunbathing through a UVB-sunscreen, or in cosmetic sunparlours. The assumption that UVA contributes to UVB skin damage may not be true at moderate UV doses, and a potential for UVA to protect from UVB-suppressed immunity and risk of skin cancer would suggest that broad spectrum sunscreens are contraindicated, and that the UVA effects need to be exploited.Read moreRead less
The Molecular Basis To The Development And Function Of The Thymic Microenvironment.
Funder
National Health and Medical Research Council
Funding Amount
$227,036.00
Summary
The ability of the body to defend itself against infection is dependent on white cells in the blood called T lymphocytes, so-named because they are produced in the thymus gland. In the absence of these T cells, there is severe immunodeficiency. On other hand if the T cells are hyperactive, they can confuse their role and destroy normal tissues (autoimmunity). Imbalances in the types of T cells can also predispose patients to allergies and failures in responses to tumours. This project seeks to i ....The ability of the body to defend itself against infection is dependent on white cells in the blood called T lymphocytes, so-named because they are produced in the thymus gland. In the absence of these T cells, there is severe immunodeficiency. On other hand if the T cells are hyperactive, they can confuse their role and destroy normal tissues (autoimmunity). Imbalances in the types of T cells can also predispose patients to allergies and failures in responses to tumours. This project seeks to identify the genes required to create T cells in the thymus. Specifically it addresses the structural cells of the thymus which provide the unique environment for converting bone marrow precursors exclusively into T lymphocytes. Understanding the genetic and thus molecular basis to this will be very important biologically but may also provide more sophisticated stratgies for treating diseases on T cell origin.Read moreRead less
I am an immunologist investigating the interactions between the liver and the immune system in order to understand the tolerogenic property of this organ.