Inflammasome Function In Protection Against Infectious Disease And Autoimmunity
Funder
National Health and Medical Research Council
Funding Amount
$631,010.00
Summary
Inflammation, characterised by swelling, heat, pain and redness, is a normal response to injury and infection. Many human diseases such as gout, athersclerosis, diabetes and Alzheimer’s disease involve some inflammation, mediated through a common pathway termed the inflammasome. This project will investigate the proteins involved in this pathway and how they interact in their normal role of combatting infections, as well as a possible defect in this pathway in autoimmune patients.
A Study Of The Function Of Neuronal Apoptosis Inhibitory Proteins (NAIP) In Innate Immunity.
Funder
National Health and Medical Research Council
Funding Amount
$242,696.00
Summary
The innate immune system is the first line of defence against infection and cancer. Regulation of the immune system is extremely important as too little response can lead to severe infections, whilst too much response can lead to chronic inflammatory disease. This project will examine the role of �neuronal apoptosis inhibitory protein� in the immune system, which should provide information on regulation of innate immunity, as well as provide insight to neurodegenerative diseases and cancer.
Neutrophil Regulation Of Early Adaptive Immune Responses
Funder
National Health and Medical Research Council
Funding Amount
$613,273.00
Summary
The aim of this project is to utilise novel mouse models and imaging techniques to unravel the role of an immune cell called neutrophil in controlling immune responses. We show that as the first cell to leave the site of bacterial infection neutrophils can orchestrate subsequent activation of other immune cells. We plan to investigate the mechanisms and consequences of this process with a view to uncover new neutrophil-based therapeutic strategies that would improve the management of inflammator ....The aim of this project is to utilise novel mouse models and imaging techniques to unravel the role of an immune cell called neutrophil in controlling immune responses. We show that as the first cell to leave the site of bacterial infection neutrophils can orchestrate subsequent activation of other immune cells. We plan to investigate the mechanisms and consequences of this process with a view to uncover new neutrophil-based therapeutic strategies that would improve the management of inflammatory diseases.Read moreRead less
The Identification And Characterisation Of A New DNA Receptor
Funder
National Health and Medical Research Council
Funding Amount
$656,498.00
Summary
The immune system has evolved to fight disease-causing microbes. First, it has to recognize that an infectious agent has invaded. To do this we have developed many probes (receptors) that sense microbial products. Detecting microbial DNA is a critical alarm bell. However, distinguishing pathogen DNA from our own DNA is difficult because both look alike. We have identified a new receptor that helps us identify bacterial DNA and alerts the immune system to the imminent danger.
Understanding ILC1 Transcriptional Regulation And Function In Immune Protection
Funder
National Health and Medical Research Council
Funding Amount
$425,048.00
Summary
Natural killer cells are innate cells that provide first line defense against infection and cancer. The recent discovery of a novel innate cell population has modified our vision of the early events necessary for immune protection. Understanding the role of these cells is critical as they could represent viable therapeutic targets. We have developed unique mouse models to experimentally target this population to determine how they are generated and their role in combating infection and cancer.
Understanding Natural Killer Cell Development And Target Recognition
Funder
National Health and Medical Research Council
Funding Amount
$408,388.00
Summary
Immune detection and eradication or control of cancer and cancer immunotherapies are based in part on the idea that tumour-specific white blood cells can protect the body from tumour development, growth and metastases. While strong evidence supports this, the means by which these white cells first recognize the cancerous tissue is largely unknown. We will study a new family of white blood cell receptors that may be important in this recognition, either naturally or following therapy.
Production Of Interferon Lambda By Dendritic Cell Subsets And Role In Adjuvant Effects Of Poly I:C
Funder
National Health and Medical Research Council
Funding Amount
$396,541.00
Summary
This proposal describes the identification of specific cells in mouse and humans that produce the anti-viral compound interferon-lambda. We propose to further characterise the mechanisms that induce interferon-lambda expression by these cell types and to decipher how this is controlled at the genetic level. We also aim to determine how the production of interferon lambda by these cell types can influence the immune response to viral infection.
Where It All Begins- Exploring Dendritic Cell Control Of Viral Infection And Cell Development In The Bone Marrow Of Mice And Man.
Funder
National Health and Medical Research Council
Funding Amount
$96,335.00
Summary
The bone marrow (bm) is the birthplace of all blood cells that fight infection in the body. Dendritic cells (DC), essential for starting immune responses, are found in the bm but the exact types and their functions are unknown. I plan to investigate the DC types that reside in the bm and explore their role in inducing immune responses and in influencing the development of cells from the bm with potential attributable benefits for stem cell transplant and vaccine design.
Nuclear plasticity during neutrophil migration and function. This project aims to discover how nuclear shape affects neutrophil function. Cell migration needs overall cellular plasticity and plasticity of internal structures such as the nucleus. The neutrophil, one of the most peripatetic cell types, has a specialised lobulated nucleus, thought to facilitate its mobility and function. Using zebrafish reporter lines that concurrently display the nucleus and cytoplasm, this project will display th ....Nuclear plasticity during neutrophil migration and function. This project aims to discover how nuclear shape affects neutrophil function. Cell migration needs overall cellular plasticity and plasticity of internal structures such as the nucleus. The neutrophil, one of the most peripatetic cell types, has a specialised lobulated nucleus, thought to facilitate its mobility and function. Using zebrafish reporter lines that concurrently display the nucleus and cytoplasm, this project will display the dynamic plasticity of neutrophil nuclei during neutrophil migration and function in vivo. This project seeks to use the spatiotemporal resolution of a lattice light sheet microscope to examine this further, and explore its effect on neutrophil function. The project seeks to establish morphological and mechanical principles applying not just to neutrophils, but to all migratory cell types.Read moreRead less
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