Real-time imaging of the initiation of adaptive immunity in vivo. Understanding the first few hours of an immune response is fundamental to understanding how the human immune system functions. The immune system mounts our responses to infectious diseases, but can also cause autoimmune disease, allergy, and organ graft rejection. We will study how naive antigen-specific T cells first contact antigen in lymph nodes using 2-photon intravital microscopy. The research has the potential to change the ....Real-time imaging of the initiation of adaptive immunity in vivo. Understanding the first few hours of an immune response is fundamental to understanding how the human immune system functions. The immune system mounts our responses to infectious diseases, but can also cause autoimmune disease, allergy, and organ graft rejection. We will study how naive antigen-specific T cells first contact antigen in lymph nodes using 2-photon intravital microscopy. The research has the potential to change the way we think about the clonal selection of lymphocytes, the fundamental theory underlying our understanding of the immune system.Read moreRead less
Mechanism of action of an anti-inflammatory compound which targets alternatively activated macrophages. The project will study the mechanism by which a novel anti-inflammatory compound, developed by our commercial partner, suppresses the activity of a population of cells known as alternatively activated macrophages. These cells play a key role in driving allergic inflammation, including the inflammation associated with asthma.
COMPARATIVE ANTI-BACTERIAL IMMUNITY IN THE URINARY TRACT: DOES ONE SIZE FIT ALL?
Funder
National Health and Medical Research Council
Funding Amount
$376,781.00
Summary
Urinary tract infections (UTI), which start as a bladder infection and often evolve to encompass the kidneys, are among the most common infectious diseases of humans. It is estimated that 40 to 50% of adult healthy women have experienced at least one UTI episode in their lifetime. Bacteria cause most UTI and this study will focus on how these bacteria survive in the urinary tract and will provide key insight into the ways in which human immune responses develop to counteract these bacteria.
Mechanism Of Exacerbations In Cystic Fibrosis Lung Disease
Funder
National Health and Medical Research Council
Funding Amount
$254,876.00
Summary
Cystic Fibrosis lung disease is characterised by infeciton with a bug called Pseudomonas aeruginosa. Patients ultimately die in their mid-30's as a result of this infection, but lung decline is accelerated by episodes of exacerbation when patients cough up large volumes of mucky sputum. We are studying the casue of exacerbations by looking at bacterial behaviour and the response of the immune system. We will use this information to try and develop early warning signals and better treatments.
Development of microbial bioproducts for the suppression of inflammation. Asthma and inflammatory diseases are serious health problems that result from excessive inflammation. Exposure to bacteria may reduce inflammation. This project will identify the bacterial components that reduce inflammation and develop them into new anti-inflammatory therapies for asthma.
Chronic Bacterial Infection And The Generation Of T Cell Memory: Implication For Vaccination Against Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$547,970.00
Summary
Two million people die from tuberculosis (TB) each year. The immune system is unable to eradicate the TB bacterium, and the type of immune response needed to protect against the disease is poorly understood. We will use animal models of TB infection and sophisticated immunological techniques to decipher how the TB bacterium interacts with the immune sytem and causes disease. We will also develop new TB vaccines that aim to boost the immune response in the lung, the main site of TB infection.
Investigating Molecular Mechanisms To Better Understand The Recent Rise In Food Allergy Prevalence In Australian Children
Funder
National Health and Medical Research Council
Funding Amount
$316,449.00
Summary
The prevalence of food allergies in Australia and abroad has risen drastically posing a major preventable public health burden. Further basic research is required and this program aims to make a substantial contribution towards understanding the underlying mechanisms of pediatric food allergy.
Food allergies have emerged as a major public health concern affecting 1 in 10 Australian infants. Hospitals waiting times are in excess of 12-months for specialist services. Recent changes in the environment are driving up rates of food allergy but the mechanisms are unclear. Epigenetics is the science of how the environment influences gene behaviour. This fellowship will address the important and urgent question of how modern environments are changing our genes, leading to food allergy.
Molecular determinants of an allergic response. Some humans develop allergies after exposure to environmental allergens while others do not. At present, the reason for this individual variation is not known. By comparing the processes activated in allergic versus non-allergic individuals, this study will identify critical molecules involved in making individuals susceptible to allergies, which will be used to develop safer and more effective allergy vaccines.
The Ontogeny Of TLR Mediated Innate Immune Function In Normal And Atopic Children
Funder
National Health and Medical Research Council
Funding Amount
$463,328.00
Summary
Bacteria are first recognised by the immune system though primitive innate immune pathways which are highly conserved through evolution. The activation of these pathways is critical for the maturation of the immune system. This may explain the rise in immune diseases with cleaner environments (and less innate immune activation). We speculate that functional differences (as a result of environmental or genetic factors) are implicated in the rising rates of allergic disease. This is the first stud ....Bacteria are first recognised by the immune system though primitive innate immune pathways which are highly conserved through evolution. The activation of these pathways is critical for the maturation of the immune system. This may explain the rise in immune diseases with cleaner environments (and less innate immune activation). We speculate that functional differences (as a result of environmental or genetic factors) are implicated in the rising rates of allergic disease. This is the first study to document normal maturation of these innate pathways in early childhood, and to compare this in allergic and nonallergic children. We will do this using existing samples collected as part of previous cohort studies. This study is the logical next step in the quest to define allergy pathogenesis. Whatever the outcome, the findings will be of enormous significance. A better understanding of the development of these pathways is also likely to contribute to more avenues for better-targeted treatment and prevention.Read moreRead less