Protecting Against Malaria Through Liver-resident Memory T Cells
Funder
National Health and Medical Research Council
Funding Amount
$1,196,853.00
Summary
We have shown that formation of liver-resident memory T cells (Trm), a newly discovered type of immune cells, can be induced by an innovative vaccination strategy called prime and trap for highly efficient protection against malaria in mice. Here, we will enhance prime and trap vaccination efficacy by defining the conditions that maximize liver Trm-mediated protection and will characterize simian and human liver Trm cells, paving the way to create the most efficient human malaria vaccine to date
Development And Validation Of A Latent Tuberculosis Diagnostic
Funder
National Health and Medical Research Council
Funding Amount
$534,865.00
Summary
Globally, tuberculosis is a leading cause of death with 9.6 million new diagnoses in 2014. The diagnosis of latent TB infection is important, but is difficult to make because current assays are suboptimal. We have developed a very simple assay which detects responses to TB antigens by co-expression of two surface markers expressed by CD4+ T cells. We propose to develop this into a highly standardised kit for the diagnosis of TB with our commercial partner Cytognos.
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.
Deciphering How TCR Affinity Regulates CD4 T Cell Help In Immunity And Autoimmunity
Funder
National Health and Medical Research Council
Funding Amount
$850,885.00
Summary
Immune responses require the coordinated interaction and cross-talk between two types of white blood cells known as CD4 and CD8 T cells. A dysregulated interaction between these cells could be the cause of autoimmune and persistent infections by pathogens leading to chronic diseases. The aim of this proposal is to provide a deeper understanding of CD4/CD8 T cell interactions to improve immune outcomes in many chronic diseases in which interaction between these two immune cells is critical.
Real-time analysis of tumour-infiltrating T cells using novel analytical tools. By dynamic visualization of immune cells within intact tumours, we have shown that active screening for target cells optimises their anti-tumour effect. This project will develop novel mathematical/analytical tools to unravel the basic strategies that enable immune cells to position themselves at the right location at the right time.
The Unique Nature Of Gamma Delta T Cell Recognition Resolved Through Interaction With H2-Q10
Funder
National Health and Medical Research Council
Funding Amount
$699,031.00
Summary
The liver is important for both digestion and immunity. Given these opposing functions, the liver must exert control points that prevent the immune system from recognising food products. We have now identified a new molecular target that controls the development of immune cells in the liver.
Deciphering Mechanisms Of Liver Allograft Tolerance
Funder
National Health and Medical Research Council
Funding Amount
$520,964.00
Summary
The liver has paradoxical properties: it is the site of effective immune responses to pathogens, but under some circumstances, it is known to induce harmless immune responses. Liver transplants are more readily accepted than other organ grafts in the absence of immunosuppressive drugs but little is known about the mechanisms that prevent an effective response. This proposal aims to unravel these mechanisms. This project will have important implications for transplantation studies.
The Role Of Chemokines In Establishing HIV Latency
Funder
National Health and Medical Research Council
Funding Amount
$372,049.00
Summary
Although antiviral therapy is effective in controlling HIV, therapy must be continued life-long because the virus cannot be cleared from long lived infected CD4+ T cells that are silently or latently infected. In this proposal we will explore the mechanism of how HIV can enter these resting CD4+ T-cells and establish long lived latent infection. Understanding this process may potentially lead to new strategies to cure HIV infection.