Delineating Aberrant Adaptive Immune Responses Due To Germline Mutations In The PI3K Signalling Pathway
Funder
National Health and Medical Research Council
Funding Amount
$975,476.00
Summary
Activation of immune cells is required to generate appropriate immune responses that protect is from disease caused by pathogens. The inability to receive the correct type of signals causes immunodeficiency. The PI3 kinase pathway is central to immune cell activation – and genetic errors in this pathwat compromise the functioning of immune cells. We will investigate the nature of these defects and pursue avenues of overcoming them using pharmacological inhibitors of the PI3K pathway.
The Role Of Cross-reactive T Cells In Severe Lung Disease Following Viral Respiratory Infections
Funder
National Health and Medical Research Council
Funding Amount
$1,003,390.00
Summary
Why do some patients clinically deteriorate at a greater rate than others during acute respiratory viral infections despite similar or identical clinical management? One explanation is the reactivation immunity towards ubiquitous viruses that then go on to cross-react against the new respiratory pathogen leading to an overly aggressive and destructive response in the lung. We will examine this potential of existing anti-viral immune responses to exacerbate disease in lung transplantation, as suc
Applying Quantitative Immunology To The Analysis Of Complex Genetic Diseases
Funder
National Health and Medical Research Council
Funding Amount
$864,596.00
Summary
The immune response of each individual varies. For some, the response invoked by foreign challenge is weak, leading to a lifetime of difficulty with infection. For others, the response is stronger, yielding excellent immunity, but opening the potential for overactive responses to self-material and autoimmune disease. We have a new theory for how the health of our immune system can be measured and we aim to apply it to understand the genesis of the many different forms of human immune diseases.
The Axis Of Bcl-2, Plasmacytoid DCs And Lupus As A Basis For Therapy
Funder
National Health and Medical Research Council
Funding Amount
$712,172.00
Summary
Systemic lupus erythematosus (SLE) affects 1 in 1000 Australians, mostly women. Here the immune system goes awry and makes antibodies against the body’s own components including the body’s DNA. This leads to damage to many parts of the body including kidneys, joints, brain and heart. It is incurable. A particular immune cell controls the development of this disease and we have found this cell is selectively killed by an inexpensive drug, which we hope will be a better way of treating SLE.
During an immune response a white blood cell, the T lymphocyte, receives a series of signals that manipulate cell survival and proliferation. The team at WEHI will identify the effects of key signals on the molecular control of T cell survival. The results will be used to test a new method for inducing tolerance and dampening unwanted immune responses, such as during tissue graft rejection and autoimmunity.
Therapeutic Vaccine Against Non-Hodgkin's Lymphoma Targeting The Immune Adjuvant Properties Of Natural Killer T Cells.
Funder
National Health and Medical Research Council
Funding Amount
$451,606.00
Summary
Patients with lymphoma cancers initially respond well to treatment, but later relapse with disease. The immune system can be effective at controlling cancer. A potential treatment option is to boost the natural immune response against cancer. This study investigates a vaccine that activates a certain immune cell, NKT cells, to fight lymphomas by delivering an NKT cell-activating molecule. Outcomes will allow assessment of combining an NKT-based vaccine with established treatments for lymphoma.
Antigen Recognition By CD1a-restricted T Cells In The Human Immune System
Funder
National Health and Medical Research Council
Funding Amount
$615,520.00
Summary
Human immunity requires protective T cells that target foreign molecules for removal. Even though substantial populations of T cells exist that recognise lipid molecules, little is known about their basic biology. We will identify and characterise lipid reactive human T cells and examine their response to foreign or self-lipids expressed by infectious organisms and host cells. This work will have important implications in understanding lipid reactive T cells in health and disease.
Lodging Resident Memory T Cells Along The Respiratory Tract As An Approach To Protect Against Influenza Virus Infection
Funder
National Health and Medical Research Council
Funding Amount
$626,555.00
Summary
We have developed methods to deposit highly protective influenza fighting cells along the respiratory tract and we will apply these principles to develop better influenza virus vaccines
Regulation Of Natural Killer Cell Activation By MHC Class I Molecules
Funder
National Health and Medical Research Council
Funding Amount
$697,084.00
Summary
Natural killer cells are important components of innate responses to viral infection and cancer. This project aims to better understand how these immune cells discriminate between healthy cells and those that have been infected with viruses or become cancerous.
Analysis Of Antigen Receptor Sharing By T And B Lymphocytes
Funder
National Health and Medical Research Council
Funding Amount
$540,356.00
Summary
To survive an infection the immune system must rapidly expand the number of immune cells that have pathogen-specific receptors that recognise, and therefore specifically combat, the infection. This normally occurs through proliferation of the immune cells. We have found that in addition to proliferation, the number of cells with these receptors can be increased by a process of receptor transfer between cells. This grant aims to further advance our understanding of this novel phenomenon.