Functional Dyspepsia: Characterisation Of The Immunopathology And Testing A Novel Therapeutic Strategy.
Funder
National Health and Medical Research Council
Funding Amount
$739,604.00
Summary
Dyspepsia, unexplained stomach discomfort and pain, is a common and costly problem; few effective treatments exist and the causes are unknown. We have found that the numbers of a type of immune cell, the eosinophil, are increased in the top of the small bowel in patients with dyspepsia. This study will explore the mechanisms that lead to increased eosinophils and then test the effectiveness of a treatment to suppress this overactive immune response which could rapidly change clinical practice.
Tuberculosis is one of the most threatening infectious diseases worldwide due to the low efficiency of the only licensed anti-tuberculosis vaccine, BCG. This project aims to interrogate two previously neglected immune mechanisms and their potential to enhance vaccine-induced immunity by incorporating these mechanisms into new genetically modified BCG strains. We will also investigate alternative BCG vaccination routes to generate long-lived immune cells that can rapidly control the infection.
A Novel Role For The IL-2 Pathway In Type-1-diabetes.
Funder
National Health and Medical Research Council
Funding Amount
$548,548.00
Summary
Genes encoding IL-2 and its receptor are strongly linked to susceptibility to multiple autoimmune diseases, including type-1-diabetes. Despite the importance of this pathway in the immune system, it is not yet understood how the associated genes affect disease. In this study, a novel function for IL-2 expression by dendritic cells in normal self-tolerance is investigated. The impacts of dendritic cell produced IL-2 expression and linkage to autoimmunity will be elucidated in both mouse and man.
A novel mechanism of host defence via macrophage extracellular traps. Animal health relies upon innate immune cells to rapidly detect invading microbes and induce inflammatory and antimicrobial responses to clear infection. Mechanisms of inflammation and immune defence are only partly understood. This project aims to elucidate a novel innate immune pathway (the inflammasome) that drives inflammatory cell death and antimicrobial defence. Using innovative multidisciplinary methods, this project wi ....A novel mechanism of host defence via macrophage extracellular traps. Animal health relies upon innate immune cells to rapidly detect invading microbes and induce inflammatory and antimicrobial responses to clear infection. Mechanisms of inflammation and immune defence are only partly understood. This project aims to elucidate a novel innate immune pathway (the inflammasome) that drives inflammatory cell death and antimicrobial defence. Using innovative multidisciplinary methods, this project will yield exciting new knowledge of mechanisms of inflammation and anti-microbial responses, and new paradigms for inflammasome action. Expected outcomes and benefits include high-impact publications, international collaboration, world-class training for young scientists, and new knowledge for future commercialisation.Read moreRead less
SNARE-mediated perforin and cytokine release in natural killer cells. Cytotoxic cells release toxic granules and cytokine messengers to kill pathogen infected and cancerous cells and to mount immune responses. This project will investigate different SNARE molecules that regulate the secretion of perforin from granules and cytokines from other carriers, assisting in the understanding of complex but essential cellular pathways.
Cholesterol and Hydroxycholesterol Shaping Phagocytosis. Reports now show that membrane cholesterol and 25-hydroxycholesterol (25HC) are required for immune cells to ingest and kill pathogens by phagocytosis. This project will measure phagocytosis in macrophages with genetically or pharmacologically varied cholesterol and 25HC, to compare and quantify the ingestion of different bacteria, fungi and particles. This project will also address the link between cholesterol synthesis, its storage in li ....Cholesterol and Hydroxycholesterol Shaping Phagocytosis. Reports now show that membrane cholesterol and 25-hydroxycholesterol (25HC) are required for immune cells to ingest and kill pathogens by phagocytosis. This project will measure phagocytosis in macrophages with genetically or pharmacologically varied cholesterol and 25HC, to compare and quantify the ingestion of different bacteria, fungi and particles. This project will also address the link between cholesterol synthesis, its storage in lipid bodies and its availability for phagocytosis, based on preliminary data showing such defects in the staggerer mouse model. Notably, cholesterol dysregulation is now a prevalent condition in society and our results will reveal at a fundamental, molecular level how this might compromise immune defenses.Read moreRead less
Combating invading DNA: a process conserved in evolution? Cells of our body defend against foreign genetic material, or DNA, which indicates an infection or invading DNA capable of causing mutation. These defences are so important that several layers have developed during evolution, and this project compares the responses of different organisms to foreign DNA.
How filopodia connect macrophages to the outside world. Fundamental to life is the ability of cells to sense their surroundings and respond accordingly. This project aims to generate a biological understanding of how certain immune cells carry out such processes, thus enabling them to combat infections.
Integrating Immunity And Genetics In Follicular Lymphoma To Establish A Prognostic Score Fit For The Modern Era
Funder
National Health and Medical Research Council
Funding Amount
$1,377,174.00
Summary
Follicular lymphoma (FL) is divided into early and advanced stages. Early stage FL is frequently cured, but there is no way to identify who will be cured and who won't. By contrast advanced stage FL is incurable. Our unique access to well-annotated clinical trial and population based cohorts allows us to perform a detailed biological comparison of early and advanced FL, to gain a deeper understanding of the impediments to eradicating the disease, and to predict outcome to conventional therapy.