Understanding the factors that control T cell responses has been a major focus of immunology. Despite this effort the factors that control T cell development, homeostasis and function are still only incompletely understood. Accordingly we have been studying the TNF-family cytokine BAFF (B cell activation factor of the TNF-family) in relation to T cell behaviour and function. Though BAFF was first described as being critical for B cell development and maturation, a number of lines of evidence ind ....Understanding the factors that control T cell responses has been a major focus of immunology. Despite this effort the factors that control T cell development, homeostasis and function are still only incompletely understood. Accordingly we have been studying the TNF-family cytokine BAFF (B cell activation factor of the TNF-family) in relation to T cell behaviour and function. Though BAFF was first described as being critical for B cell development and maturation, a number of lines of evidence indicate that BAFF may be important in T cell biology. Current studies suggest that BAFF exerts a pro-inflammatory effect upon T cell responses. Surprisingly then, when we examined the role of BAFF upon T cell function in vivo in the context of the allo-immune response, we found that ~60% of BAFF transgenic mice failed to reject a fully-mismatched allograft. Intriguingly, BAFF transgenic mice exhibited an increased number of CD4+ CD25+ Foxp3+ cells in the periphery and in vivo depletion of these CD25+ cells restored the ability of BAFF transgenic mice to reject an allograft. We hypothesize that BAFF plays a potentially powerful anti-inflammatory role in regulating certain T cell dependent immune responses. Our data suggests that BAFF can modulate T cell function by effecting T cell regulation.Read moreRead less
Discovering Molecular Signatures Of Human T Follicular Helper Cells And Antibody Producing B Cells To Improve Vaccine Efficacy And Transplation Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$408,768.00
Summary
A key way the body can fight off infections is to produce antibodies, a process that requires the coordinated efforts of multiple types of specialised immune cells. A more detailed understanding the factors that govern robust antibody responses is critically needed and will be investigated in this project in the context of vaccination and transplant rejection.
TOLERANCE OR REJECTION – THE ROLE OF INNATE IMMUNITY IN DETERMINNG THE FATE OF A KIDNEY ALLOGRAFT
Funder
National Health and Medical Research Council
Funding Amount
$506,413.00
Summary
Transplantation is the optimal management for people with organ failure. Tolerance, to retain transplant function without immunosuppression, remains the key goal but is seldom achieved. We propose to block Toll-like receptor signalling to achieve kidney transplant tolerance in mice. If successful, we would translate this into clinical trials in human, seeking to achieve organ transplantation without the risks of cancer, infection and premature death that are currently faced by organ recipients.
Mechanisms Of Islet Graft Rejection And Acceptance
Funder
National Health and Medical Research Council
Funding Amount
$602,501.00
Summary
Islet grafts offer diabetic patients the promise of a return to insulin-independence. In this project we will study how natural regulatory T cells suppress islet graft rejection in a mouse model. We will determine where regulatory T cells interact with graft-rejecting T cells, and define the mechanisms used to mediate their suppressive effects. Our findings will aid in developing new ways to induce long-term acceptance of islet grafts without immunosuppressive drugs.
An X-ray Crystallographic Investigation Into The Structural Basis Of T-cell Allorecognition
Funder
National Health and Medical Research Council
Funding Amount
$441,000.00
Summary
X-ray crystallography is an essential tool for solving the three-dimensional (3-D) structure of proteins. Proteins control the biological processes within the cell and it is the exact shape of proteins that determines how they function. Each protein is made up like a string of beads, with the building units being amino acids. Depending on the sequence of the amino acids, the protein molecule bends and forms a distinct, complex shape. This three dimensional shape allows it to specifically interac ....X-ray crystallography is an essential tool for solving the three-dimensional (3-D) structure of proteins. Proteins control the biological processes within the cell and it is the exact shape of proteins that determines how they function. Each protein is made up like a string of beads, with the building units being amino acids. Depending on the sequence of the amino acids, the protein molecule bends and forms a distinct, complex shape. This three dimensional shape allows it to specifically interact with carbohydrates, other proteins, such as enzymes or receptors, or even with molecules like DNA, to have its effect. To determine how a protein acts, it is vital to know the precise three-dimensional shape of a protein at the atomic level. This work is focused on understanding the precise shape of proteins that control the immune system. The immune system is avital process whereby individuals can fight off disease. This work will further our understanding of the immune system.Read moreRead less
Investigating The Function Of Natural Killer Cells During Immunological Responses Following Human Lung Transplantation
Funder
National Health and Medical Research Council
Funding Amount
$71,766.00
Summary
The immune system is critical in controlling common viral infections in healthy individuals. When transplanting foreign solid organs into patients with end-stage lung disease the immune systemÍs activity is decreased via the immunosuppressive drugs to enable graft acceptance. In some patients the immune response can detect similarities between previously encountered viruses and the foreign organ, leading to life-threatening health problems through either rejection episodes and/or graft loss.