Combating Infectious Diseases By Harnessing Macrophage Functions
Funder
National Health and Medical Research Council
Funding Amount
$688,152.00
Summary
Infectious diseases present a persistent global health threat. For patients with life-threatening diseases caused by bacterial pathogens, antibiotics provide the last resort. Antibiotic resistance, even for newly developed antibiotics, is widespread within the bacterial community. New strategies are urgently needed to combat most bacterial infections. This proposal will investigate a new strategy to train and boost our immune systems to combat infectious diseases.
The Role Of IL-17 In Regulating Liver Macrophage Permissiveness For Leishmania Infection
Funder
National Health and Medical Research Council
Funding Amount
$655,082.00
Summary
Visceral Leishmaniasis is a disease of poverty in the developing world caused by Leishmania parasites, which live and replicate within host tissue macrophages. A cytokine produced by host cells, IL-17A impairs the ability of liver macrophages to control this infection, as mice that lack IL-17A have lower parasite burdens in the liver after experimental infection. We propose to investigate if IL-17A mediates this impaired control by tuning the permissiveness of host macrophages to infection.
Elucidating The Critical Roles Of ILC1, NK Cell And Innate Memory In Immune Protection
Funder
National Health and Medical Research Council
Funding Amount
$657,024.00
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.
As the first recruited cells, neutrophils direct protective responses against infection, but can also mediate destructive responses in inflammatory disease. This project will determine mechanisms driving neutrophil-dependent inflammation in both settings, by examining a specific inflammation-promoting molecular pathway (the ïinflammasomeÍ) in neutrophils. This research will lead to a better understanding of inflammation, and may suggest therapeutics for treating inflammatory disease.
Recognition And Interaction Of Virus By The Innate Immune System
Funder
National Health and Medical Research Council
Funding Amount
$307,946.00
Summary
The innate immune system acts rapidly to limit infection of invading pathogens. The interaction and recognition of pathogens such as viruses by the innate immune system, is of importance to understand why particular pathogens induce disease.
Characterization Of Human-specific Anti-microbial Pathways
Funder
National Health and Medical Research Council
Funding Amount
$586,428.00
Summary
The immune system protects us against infectious disease by killing invading microbes or pathogens. Macrophages are white blood cells that are important for the recognition and destruction of pathogens. This project aims to investigate the role of certain genes, which are turned on in macrophages when they sense invading pathogens, in protecting us against infectious diseases such as tuberculosis and gastroenteritis.
Cytoplasmic DNA As A Danger Signal For Mammalian Cells
Funder
National Health and Medical Research Council
Funding Amount
$592,661.00
Summary
DNA in mammalian cells is contained within a structure known as the nucleus. The presence of DNA outside the nucleus in the cytoplasm of the cell is a sure sign that something is wrong, and may indicate the presence of a viral invader. In this case, the cell initiates anti-viral responses, including production of anti-viral proteins and death of the infected cell to stop replication of the virus. Lack of proper control of these responses may contibute to the autoimmune disease lupus.
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.
Why do neutrophils swarm? This project aims to combine novel immunology, microscopy and computational approaches to investigate how immune cells called neutrophils cooperate to protect the host against microbes. Neutrophils are rapidly recruited to sites of inflammation and then utilise a type of highly coordinated collective behaviour termed swarming. However, the role of neutrophil swarms in fighting off infection is poorly understood. The project is poised to generate new knowledge on the imp ....Why do neutrophils swarm? This project aims to combine novel immunology, microscopy and computational approaches to investigate how immune cells called neutrophils cooperate to protect the host against microbes. Neutrophils are rapidly recruited to sites of inflammation and then utilise a type of highly coordinated collective behaviour termed swarming. However, the role of neutrophil swarms in fighting off infection is poorly understood. The project is poised to generate new knowledge on the importance of immune cell cooperation by developing in silico models of the immune response. The project will provide benefit through enhanced understanding of fundamental principles of immunity and develop new computational tools to model complex immune function in silico.Read moreRead less
Pattern Recognition Receptors In Inflammation And Infection
Funder
National Health and Medical Research Council
Funding Amount
$622,655.00
Summary
Innate immunity provides our first line of defence against infections, but pathogens can overcome this system. Understanding how microbes disable innate immunity can teach us how to prevent and/or treat infectious diseases. Innate immunity acts by initiating inflammation. Many important acute and chronic diseases develop when this process is dysregulated. Blocking innate immunity thus has potential to treat many diseases. This project aims to understand innate immunity in these contexts.