Initial Interactions Of Herpes Simplex Virus With Innate Immune Cells In Human Skin
Funder
National Health and Medical Research Council
Funding Amount
$522,589.00
Summary
Herpes simplex viruses 1 and 2 cause widespread and occasionally serious diseases including genital herpes, neonatal death and encephalitis. Current vaccine candidates are at best partially effective. This grant will examine the way that the virus enters, initially spreads within the skin and interacts with immune cells to help determine which cells should be stimulated by vaccines.
The Role Of Perivascular Macrophages In The Regulation Of CNS Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$602,609.00
Summary
Inflammation of the central nervous system can have deleterious consequences. How the inflammatory cascade operates within the CNS is poorly understood. We have recently discovered a novel subset of immune cells, the perivascular macrophage, which regulates the recruitment of inflammatory cells. Aim of this proposal is to dissect the role of these cells during brain infections and autoimmune inflammation.
A Novel Macrophage Lineage In Inflammation And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$772,857.00
Summary
Macrophages are an important haematopoietic cell type that has been implicated in inflammatory and cancerous diseases. In our preliminary work we have discovered a new macrophage subset, termed the perivascular macrophage, in breast cancer. The aim of this proposal is to investigate the origin of these cells, and the role they play in breast cancer. This will tell us how we might be able to manipulate the functions of these cells in order to curtail breast cancer progression.
Mechanisms Of Alpha-hemolysin Induced Immunoevasion By Staphylococcus Aureus
Funder
National Health and Medical Research Council
Funding Amount
$465,475.00
Summary
S. aureus infections represent a serious global health problem. Currently, no vaccination is available demanding a better understanding of the immune response against this bacterium. We will test the hypothesis that S. aureus alpha-hemolysin represses the migration of innate immune cells to sites of cutaneous infection resulting in diminished immunity. Unraveling the mechanism behind this phenomenon will pave the way to better prophylactic and therapeutic measures against S. aureus infections.
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
Investigating The Role Of Mucosal Associated Invariant T (MAIT) Cells In Mycobacterium Tuberculosis
Funder
National Health and Medical Research Council
Funding Amount
$122,566.00
Summary
Tuberculosis (TB) is a deadly infectious disease that kills 2 million people per year worldwide. If we are to eliminate this disease, we urgently need a new TB vaccine. I plan to look at what role a newly discovered type of T cell might play in TB infection and to see whether these cells can be manipulated by vaccination. This work will help us to understand more about the body’s first response to TB infection and how we can use this response in the design of new TB vaccines.
Structural And Functional Investigation Of Killer-Cell Immunoglobulin-like Receptors
Funder
National Health and Medical Research Council
Funding Amount
$546,966.00
Summary
Natural Killer (NK) cells are an important component of the immune response to cancer and infection. This project will define the molecular targets that are recognised by NK cells. This knowledge can then be used as a guide in the selection of bone marrow donors in the treatment of leukaemias as well as understanding how we fight infections.
The Role Of Stellate Cells In Fibrosis And Liver Disease Progression In HIV-Hepatitis B Co-infection
Funder
National Health and Medical Research Council
Funding Amount
$157,292.00
Summary
Liver related mortality is the commonest cause of non-AIDS death in HIV infected individuals on treatment. With HIV, HBV liver damage is accelerated and liver-related mortality increased. Understanding how and why is critical to management. I will examine the role of hepatic stellate cells using in vitro models and directly ex vivo from infected patient biopsy tissue. I will investigate the activated of these cells by HIV and HBV infection, thus promoting scar formation with liver injury.
My work focuses on cells of the immune system that act as sentinels on the lookout for invading pathogens and danger. These cells are called dendritic cells. I am particularly interested in understanding how these cells function within the bone marrow environment and how they may sense viral infection or cancerous cells within this tissue. We aim to understand their function in specific diseases including Lupus and in pre-leukemia conditions, and also in infectious and parasitic diseases.
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.