Identification Of Antigen Selection In The Human IgE Response By Analysis Of Somatic Point Mutations
Funder
National Health and Medical Research Council
Funding Amount
$256,973.00
Summary
Allergic disease affects over 25% of the Australian community. It is responsible for significant sickness and death, particularly amongst children, and its incidence is on the increase. The reasons for this, and the underlying causes of allergic disease, remain unclear. Allergic disease results from the actions of molecules called IgE antibodies, which are also associated with parasitic infection. Even in these conditions, where IgE concentrations are raised in the blood, the concentrations are ....Allergic disease affects over 25% of the Australian community. It is responsible for significant sickness and death, particularly amongst children, and its incidence is on the increase. The reasons for this, and the underlying causes of allergic disease, remain unclear. Allergic disease results from the actions of molecules called IgE antibodies, which are also associated with parasitic infection. Even in these conditions, where IgE concentrations are raised in the blood, the concentrations are too low to allow their direct study. We have recently applied molecular biological techniques to study the genes that encode IgE antibodies. Our work suggests that the IgE response can sometimes develop in a different way to that of other antibodies (eg IgG). On the other hand, laboratory (in vitro) studies over many years support the possibility that IgE and IgG develop in parallel. In this study, we wish to identify circumstances in which IgG-like IgE antibodies develop. We therefore wish to study patients with different kinds of allergic disease, and patients with other conditions that are associated with IgE production. We therefore wish to study patients who have infections with parasitic worms. We deduce the processes that give rise to IgE antibodies by analysing patterns of mutations that accumulate in antibody genes during an immune response. Over recent years, we have developed new approaches to the analysis of such mutations, and this project also seeks to further develop our mutation analysis. This more powerful analysis will be applied to the study of mutations in the IgE genes seen in different patient groups, and should allow us to quantify the proportion of IgE antibodies that develop in each way. A better understanding of the relative contributions of the two pathways to IgE, in different conditions, will transform our understanding of the IgE response, and open up new avenues for the investigation of the causes and treatment of allergic disease.Read moreRead less
Regulation Of Pulmonary Immune Responses To Subunit Vaccines Against Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$509,202.00
Summary
Tuberculosis (TB) remains an enormous health problem world-wide. Improving the effectiveness of anti-TB vaccines is essential for its control. The first approach to improving subunit TB vaccines will be to manipulate the cellular immune response to the vaccine by increasing the positive cytokine signals, or reducing inhibitory effects on the immune response. The second approach is to develop new subunit vaccines to deliver to the lung in order to increase the potency of the protective response.
Defective Toll-like Receptor 7 Signalling In Plasmacytoid Dendritic Cells Underlies The Inception Of Virus-associated Asthma
Funder
National Health and Medical Research Council
Funding Amount
$552,301.00
Summary
In genetically susceptible individuals, respiratory virus infections are a risk factor for asthma inception and are the most common cause of acute exacerbations. Using a clinically relevant mouse model of disease, this study will investigate whether the altered expression of toll-like receptor 7, a host protein that senses viral invasion, causes the host to mount an inappropriate pro-allergic immune response to the virus.
The Intracellular Replicative Niche Of Legionella Species And Coxiella Burnetii.
Funder
National Health and Medical Research Council
Funding Amount
$529,632.00
Summary
This project will study how the bacterium that causes Legionnaire's disease survives and grows inside human cells. We have identified new bacterial proteins that allow Legionella to manipulate the normal host cell processes involved in killing an invading bacterium. Similar proteins are also present in the closely related organism, Coxiella, which causes Q-fever. By determining how these proteins act, this work may result in new treatments for Legionnaire's disease and related infections.
THE INTERFACE BETWEEN INNATE AND ADAPTIVE IMMUNITY
Funder
National Health and Medical Research Council
Funding Amount
$4,905,420.00
Summary
Allergic disorders including asthma are amongst the most prevalent diseases in Australia afflicting up to 25% of the population and costing the Australian Government in excess of $600 million annually. This program aims to understand the molecular and cellular mechanisms controlling airway inflammation, focusing on the cross-talk between scavenger cells at airway surfaces and circulating cells of the immune system. These studies will combine sophisticated mouse models of airway inflammation in t ....Allergic disorders including asthma are amongst the most prevalent diseases in Australia afflicting up to 25% of the population and costing the Australian Government in excess of $600 million annually. This program aims to understand the molecular and cellular mechanisms controlling airway inflammation, focusing on the cross-talk between scavenger cells at airway surfaces and circulating cells of the immune system. These studies will combine sophisticated mouse models of airway inflammation in the laboratory with clinical investigation and analysis of human tissue. Understanding these processes will translate into better treatments for patients suffering from life-threatening allergy and asthma.Read moreRead less
Functional Analysis Of The Ym2 Chitinase-like Lectin In Allergic Airways Disease
Funder
National Health and Medical Research Council
Funding Amount
$283,767.00
Summary
The prevalence of asthma is widespread and nationally affects over two million Australians. Consequently, one of the Country s National Health Priorities is to improve our understanding of this condition. Analyses of the asthmatic lung reveal an airway wall that is thickened, an airway lumen that is obstructed and abnormal spasmogenicity of the airway smooth muscle: processes that collectively contribute to both acute and chronic respiratory dysfunction. Asthmatics develop an immune response tha ....The prevalence of asthma is widespread and nationally affects over two million Australians. Consequently, one of the Country s National Health Priorities is to improve our understanding of this condition. Analyses of the asthmatic lung reveal an airway wall that is thickened, an airway lumen that is obstructed and abnormal spasmogenicity of the airway smooth muscle: processes that collectively contribute to both acute and chronic respiratory dysfunction. Asthmatics develop an immune response that is biased toward production of allergy-related T helper 2 cytokines of which interleukin (IL)-13 is a potent mediator of disease. However, the molecular processes linking IL-13 with abnormal airway wall changes are unclear. To identify previously uncharacterised IL-13-related molecules, we used a protein profiling approach that identified a novel lectin (carbohydrate-binding protein) termed Ym2, which is secreted abundantly into the airway fluid of mice in which allergic airways disease has been induced. Preliminary studies suggest that Ym2 is an intermediary of IL-13 that is involved in respiratory dysfunction. This project aims to work out how Ym2 interacts with the molecules and cells of the respiratory tract to regulate allergic disease. Specific inhibitors of Ym2 will be developed to examine what happens to allergic responses when Ym2 can t function; transgenic mice will be developed to determine if we see features of allergy when Ym2 is over-expressed in the normal lung, and human samples will be screened to identify the human counterpart of Ym2 and whether this counterpart is secreted into the lung fluid of asthmatics. Defining the mechanism by which Ym2 regulates the pathogenesis of allergic disease will not only contribute to our basic understanding of the processes underlying asthma pathology, but also generate new information for better design of therapeutics directed against specific mediators of this debilitating and widespread disease.Read moreRead less