There are two arms to the immune system, one that learns and adapts, which can cause autoimmune disease, and another that is immediate and innate, and can cause autoinflammatory disease. This proposal continues our work in the characterization of rare genetic autoinflammatory disesaes and extrapolates these studies to more common chronic inflammatory diseases. This stands to improve current diagnosis and treatment, and elucidate future drug targets that could be targeted clinically.
The Role Of Perivascular Macrophages In The Regulation Of Skin Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$616,518.00
Summary
Neutrophils are key defenders against bacterial infections. In this application we will test the hypothesis that perivascular macrophages play a critical role in the recruitment of neutrophils to site of cutaneous infection, and that these cells are targeted and destroyed by bacterial virulence factors. Our studies will gain novel insight into the leukocyte homing paradigm and shed new light on the mechanisms of microbial immuno-evasion.
Manipulating The Fine-turning Of The Innate Immune Response In Disease
Funder
National Health and Medical Research Council
Funding Amount
$938,910.00
Summary
I am an international expert on the body’s first-line defense system, the innate immune response. My Fellowship focuses on studying and manipulating innate immune molecules called interferons. My research will lead to improved management of female reproductive disease, autoimmune disorders, infections and cancer through new diagnostics and therapies targeting the interferon system. The basic knowledge I generate on regulating the immune response will be applicable to a range of medical fields.
Immune-imprinting nanoparticles (iNPs). This research promises new classes of immune-imprinting, biodegradable nanoparticles (iNPs) with anti-inflammatory properties. The engineering of such particles requires fundamental understanding of their properties that enable specific cellular interactions to regulate immunity with new anti-inflammatory pathways. For pulmonary delivery, spray-dried amino acid microspheres with tailored surfaces as carriers can be generated using the innovative microfluid ....Immune-imprinting nanoparticles (iNPs). This research promises new classes of immune-imprinting, biodegradable nanoparticles (iNPs) with anti-inflammatory properties. The engineering of such particles requires fundamental understanding of their properties that enable specific cellular interactions to regulate immunity with new anti-inflammatory pathways. For pulmonary delivery, spray-dried amino acid microspheres with tailored surfaces as carriers can be generated using the innovative microfluidic drying approach. The potential applications of iNPs are wide-ranging and are not restricted to pulmonary targeting. The potential commercial implications for Australia's emerging biopharmaceutical industry are substantial.Read moreRead less
Investigating the actions of anti-inflammatory pathways in chronic lung disease. There is an urgent need to develop better drugs for Chronic Obstructive Pulmonary Disease (COPD) as patients become resistant to currently used anti-inflammatory drugs with disease progression. This research will uncover fundamental biology into an important class of anti-inflammatory receptor termed ALX/FPR2. This receptor normally coordinates the clearance of infection and injured tissue and subsequently switches ....Investigating the actions of anti-inflammatory pathways in chronic lung disease. There is an urgent need to develop better drugs for Chronic Obstructive Pulmonary Disease (COPD) as patients become resistant to currently used anti-inflammatory drugs with disease progression. This research will uncover fundamental biology into an important class of anti-inflammatory receptor termed ALX/FPR2. This receptor normally coordinates the clearance of infection and injured tissue and subsequently switches off inflammation. Essential knowledge into why this receptor pathway fails to switch off inflammation will be determined. Furthermore, the development of targeting strategies to this receptor represents an innovative approach to blocking damaging and chronic airway inflammation.Read moreRead less
During injury or infection, our body’s immune system protects us by launching inflammation. But uncontrolled inflammation drives common diseases such as cancer, diabetes and Alzheimer’s. This project will reveal how the body produces interleukin-1? – a protein at the heart of inflammation and disease – so we can design better strategies for treating patients with inflammation-driven disease.
All cells in the body need to get their energy from somewhere, and the chemical basis of their energy supply varies depends on many factors, including their location and rate of cell division. We have found that an important population of white blood cells that control the character and magnitude of most immune responses appear to use an unusual source of their energy. If true this would provide a range of new opportunities to control the numbers and activities of these cells, a thereby control ....All cells in the body need to get their energy from somewhere, and the chemical basis of their energy supply varies depends on many factors, including their location and rate of cell division. We have found that an important population of white blood cells that control the character and magnitude of most immune responses appear to use an unusual source of their energy. If true this would provide a range of new opportunities to control the numbers and activities of these cells, a thereby control the character and magnitude of immune responses.Read moreRead less
Immune Regulation Of Colitis And Associated Cancer
Funder
National Health and Medical Research Council
Funding Amount
$646,995.00
Summary
Inflammatory bowel disease is a debilitating condition that can significantly increase the likelihood of developing colon cancer. There are many different cellular pathways that lead to this inflammation, but we have uncovered a key signal that can prevent it from occurring. Specifically, we have identified how this signal increases a new type of suppressive cell that fights inflammation in the colon and can also stop this leading cancer.
Discovery Early Career Researcher Award - Grant ID: DE130100470
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Understanding mechanisms and functions of evolutionary divergence in innate immune genes. Microorganisms constantly challenge the immune systems of all multi-cellular organisms, and host immune genes must be able to co-evolve with microbes in order for a species to propagate. This project will investigate how host immune genes in a species evolve to enable that species to continue.
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