Argonaute Proteins In The Mammalian Antiviral Response
Funder
National Health and Medical Research Council
Summary
Viruses are the most abundant infectious agents on earth, and the diseases caused by them are a constant threat and cause of mortality worldwide. Awarded the Nobel Prize for Medicine in 2006, RNA interference (RNAi) is a natural process that plants use to attack viruses. Humans possess all of the tools for RNAi, but whether it is used for antiviral defense is unknown. This study aims to uncover this immune process which will open new avenues to treat virus infections, such as influenza and HIV.
Transport and innate immune properties of DNA in bacterial nano-sized vesicles. All types of living organisms release nano-sized membrane vesicles or “blebs” which they use for intercellular communication and transport of molecules. This project will determine how bacteria package DNA within these vesicles, how this DNA is transported into host cells and how it triggers immune responses in these cells.
Investigating The Roles Of Non-coding RNAs In Inflammatory Signalling And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$408,768.00
Summary
Inflammation occurs as part of the body's natural defenses against infection or injury, but can be damaging when unregulated and can lead to cancer. Although the protein factors critical for inflammation have been carefully studied it remains unknown how ribonucleic acid (RNA) molecules can modify and regulate inflammation. This project will identify RNA molecules that control inflammatory signalling, and further translate these findings to show they contribute to the progression of cancer.
Defining The Role Of Nlrp1 And The Inflammasome In Host Defence And Inflammatory Disease
Funder
National Health and Medical Research Council
Funding Amount
$634,459.00
Summary
The immune system protects the body from invading pathogens, but it can also attack the body causing inflammatory and autoimmune diseases like arthritis and multiple sclerosis. This project will focus on the molecular regulation of the ïinflammasomeÍ, a protein complex that senses invading pathogens and triggers the immune response. Understanding the inflammasome may hold the key to a better understanding of how the good and bad functions of the immune system can be balanced to prevent disease.
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.
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.
Discovery Early Career Researcher Award - Grant ID: DE200101300
Funder
Australian Research Council
Funding Amount
$423,711.00
Summary
Lipopolysaccharide-induced macrophage extracellular traps in host defence. The innate immune system is the first line of defence against invading microbes. Macrophages are key innate immune cells that deploy antimicrobial responses to clear infection and restore health. There are many critical unanswered questions on the molecular mechanisms that drive macrophage inflammatory and antimicrobial pathways. This project aims to elucidate a novel inflammatory mechanism that immobilises and kills inva ....Lipopolysaccharide-induced macrophage extracellular traps in host defence. The innate immune system is the first line of defence against invading microbes. Macrophages are key innate immune cells that deploy antimicrobial responses to clear infection and restore health. There are many critical unanswered questions on the molecular mechanisms that drive macrophage inflammatory and antimicrobial pathways. This project aims to elucidate a novel inflammatory mechanism that immobilises and kills invading bacteria via newly discovered structures made by dying macrophages called extracellular traps. Insight we gain by interrogating this immune cell signalling pathway, called the non-canonical inflammasome, will add valuable knowledge to our fundamental understanding of mammalian inflammation and anti-microbial responses
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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.
Analysing the protective role of platelets during malaria infection. Platelets protect the host during malarial infection. This project aims to study how platelets kill the malaria parasite by investigating the role of host molecules and their potential as novel antimalarial agents. The role of platelets in the pathogenesis of cerebral malaria syndrome will also be investigated.
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.