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
In this project, we will determine how a protein called ACKR4 suppresses antibody production and determine whether inhibiting its function will enhance the effectiveness of vaccination.
Understanding The Mechanisms Of Action Of The ISCOMATRIX Adjuvant For The Development Of Human Vaccines
Funder
National Health and Medical Research Council
Funding Amount
$401,361.00
Summary
CSL Limited, an Australian owned global biopharmaceutical company, is developing the ISCOMATRIX (IMX) adjuvant for vaccines to prevent and treat serious human disease of global concern (e.g. cancer, pandemic flu, HPV, HCV). This study will identify the mechanisms of action of IMX in generating strong cellular immunity, how to enhance it further by combining with other immuno-modulators so as to develop novel IMX vaccines for the treatment of established cancer and persistent viral infections.
Characterisation Of An Antigen Presenting Cell Unique To Spleen
Funder
National Health and Medical Research Council
Funding Amount
$420,606.00
Summary
The body depends on a range of defence mechanisms to remove invaders that enter by various routes. Antigen presenting cells are central to immunity in that they engulf and destroy dead cells and pathogens and present pieces of those pathogens or 'antigens' to white blood cells called T and B lymphocytes. These cells then start to fight the infection or disease. A new type of antigen presenting cell will be investigated for its particular ability to arrest blood-borne pathogens and disease.
Enhancing Vaccine Efficacy By Harnessing Dendritic Cell Receptors And Their Unique Properties
Funder
National Health and Medical Research Council
Funding Amount
$687,519.00
Summary
Potent vaccination might be achieved by using monoclonal antibodies as magic bullets to target vaccines to special cells in the body. We show that targeting these special cells by using monoclonal antibodies that recognise Clec9A is effective, perhaps because it brings several different immune cells together so that they orchestrate very efficient immune responses. This application investigates how targeting Clec9A allows strong vaccination so that we can apply this to new generation vaccines.
Coordinating Leukocyte Migration And Interaction During Immune Responses: The Multiple And Central Roles Of The Orphan G Protein Coupled Receptor EBI2
Funder
National Health and Medical Research Council
Funding Amount
$512,716.00
Summary
The ability of the immune system to fight infections relies on the capacity of immune cells to navigate within the body. This study aims at understanding the role of the immune cell receptor Epstein-Barr virus-induced gene 2 (EBI2) in guiding the movement and the interaction of the different types of white blood cells during immune responses. These insights will add to our understanding of immune cell migration thereby offering new therapeutic approaches to improve or control immune responses.
Generation And Maintenance Of Effective T Cell Memory In Peripheral Organs
Funder
National Health and Medical Research Council
Funding Amount
$336,767.00
Summary
Infectious diseases represent potentially life-threatening events. Immunity against re-infection relies on different types of memory immune cells that constantly patrol through the organism in search for invading agents. Recently, it has emerged that there exists an additional type of memory cells that permanently reside in peripheral tissues where they confer immediate immune protection. This project will examine the requirements for the generation and maintenance of this important cell type.
Immunoregulation Of Subsets Of Memory CD8+ T Cells
Funder
National Health and Medical Research Council
Funding Amount
$233,867.00
Summary
Information will be sought on the properties of T cells, a class of white blood cells that play a vital role in combating infectious agents. Using mouse models, subsets of T cells that carry immunological memory will be studied and assessed for their rate of cell division and dependence on soluble messengers known as cytokines and other stimuli. The data will provide useful knowledge on the causes of autoimmune diseases (such as rheumatoid arthritis, type 1 diabetes and lupus) and help in the de ....Information will be sought on the properties of T cells, a class of white blood cells that play a vital role in combating infectious agents. Using mouse models, subsets of T cells that carry immunological memory will be studied and assessed for their rate of cell division and dependence on soluble messengers known as cytokines and other stimuli. The data will provide useful knowledge on the causes of autoimmune diseases (such as rheumatoid arthritis, type 1 diabetes and lupus) and help in the development of successful second generation vaccines.Read moreRead less
Mechanisms Regulating Establishment Of Persistent Herpesvirus Infection
Funder
National Health and Medical Research Council
Funding Amount
$511,446.00
Summary
Herpesviruses are a major cause of disease worldwide and are amongst the most successful human pathogens, with some viruses infecting more than 80% of the world's population. This group of viruses persist and reactivate in hosts and induce immunosuppression.The control of herpesviruses infections thus represents an important clinical goal. Understanding the mechanisms involved in the induction of viral persistence and immunosuppression is a crucial step towards developing better therapies.
Antigen Presentation, Recognition And The Immune Response
Funder
National Health and Medical Research Council
Funding Amount
$15,738,750.00
Summary
The early events in immunity require various molecular interactions. We will examine the structural and biophysical basis for some of these interactions, including those associated with transplant rejection and autoimmunity. We will explore the impact of variation in immune response genes on immune evasion and disease susceptibility. Our basic research will determine the mechanisms by which the immune system discriminates between different self and micro-organism associated determinants. We will ....The early events in immunity require various molecular interactions. We will examine the structural and biophysical basis for some of these interactions, including those associated with transplant rejection and autoimmunity. We will explore the impact of variation in immune response genes on immune evasion and disease susceptibility. Our basic research will determine the mechanisms by which the immune system discriminates between different self and micro-organism associated determinants. We will address the structural and biochemical basis for operation of an immune molecule called tapasin and unravel the basis for how some viruses escape the function of this molecule, thus allowing their immune evasion. We will also explore the use of modified small proteins called peptides in a humanized model of gluten hypersensitivity resembling that of Celiac disease. The molecular basis of the natural human immune system's capacity to recognise and reject grafts will be examined. This complements work aimed at improving the prediction of clinical graft rejection in transplantation. Dendritic cells play a central role in immunity, responsible for capturing material, whether from micro-organisms or self tissues, and presenting it to cells of the immune system. Our program will study the development and immunological function of the different dendritic cell subtypes. We will determine the relative contribution of each to the maintenance of immune tolerance and to the induction of immunity to several pathogens, including herpes simplex virus and malaria. Novel dendritic cell surface molecules that we have discovered will be tested for their ability to enhance the effectiveness of vaccines. Overall, this program utilises a broad array of immunological techniques designed to dissect the development and function of various immune system cell types and determine the structure-function relationships between important cell surface molecules involved in immunity.Read moreRead less