Delineating Aberrant Adaptive Immune Responses Due To Germline Mutations In The PI3K Signalling Pathway
Funder
National Health and Medical Research Council
Funding Amount
$975,476.00
Summary
Activation of immune cells is required to generate appropriate immune responses that protect is from disease caused by pathogens. The inability to receive the correct type of signals causes immunodeficiency. The PI3 kinase pathway is central to immune cell activation – and genetic errors in this pathwat compromise the functioning of immune cells. We will investigate the nature of these defects and pursue avenues of overcoming them using pharmacological inhibitors of the PI3K pathway.
Epigenetic Mechanisms That Regulate B Cell Differentiation And Memory B Cell Persistence To Provide Long-term Immune Protection
Funder
National Health and Medical Research Council
Funding Amount
$318,196.00
Summary
Memory immune cells remember antigens that have previously induced an immune response, and the ability of these cells to rapidly clear pathogens has led to successful vaccination programs. This project will study epigenetic changes during the formation of immune memory that results in protection against foreign antigens. Understanding these processes will assist in creating more effective vaccines and treatments for patients with immune disorders.
Viral Antigen Presentation Kinetics And Memory T Cell Inflation
Funder
National Health and Medical Research Council
Funding Amount
$503,753.00
Summary
The ageing of the population is one of the major transformations being experienced by Australia’s population which will have major health implications. Recent studies have shown that many elderly individuals display ‘immune risk phenotype’ (IRP) which is characterised by a severely distorted immune system and human cytomegalovirus (CMV) infection. In this project we will investigate the mechanisms by which CMV alters cellular immune system and thus impacts on the host immunity against other path ....The ageing of the population is one of the major transformations being experienced by Australia’s population which will have major health implications. Recent studies have shown that many elderly individuals display ‘immune risk phenotype’ (IRP) which is characterised by a severely distorted immune system and human cytomegalovirus (CMV) infection. In this project we will investigate the mechanisms by which CMV alters cellular immune system and thus impacts on the host immunity against other pathogens.Read moreRead less
Defining The Stage Specific Requirements For Bcl-2 Family Members In The Development And Maintenance Of B Cell Memory
Funder
National Health and Medical Research Council
Funding Amount
$632,438.00
Summary
Both vaccinations and pathogenic infections provoke an immune response. Our immune system ñmemorizesî this response, enabling a faster and stronger reaction upon re-encounter. This memory requires specialized cells of the immune system, some of which secrete antibodies and some of which patrol the body. Remarkably, these cells can live for decades in humans and provide immunity. In this project we will study the roles of specific proteins regulating the generation and survival of memory cells.
In Vivo Imaging Of Virus-specific T Cell Responses In The Skin
Funder
National Health and Medical Research Council
Funding Amount
$332,258.00
Summary
Effective vaccination against many viral infections such as Herpes Simplex Virus (HSV) may be achieved by directing the cells of the immune system to specific sites in the body where they can lie in wait against the disease. To direct the immune system in this way, we must first understand how immune cells orchestrate themselves in tissues. This project will utilise advanced imaging techniques to study immune cells in real time to understand how they protect against viral infections in the skin.
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.
STAT3-mediated Regulation Of Human Antibody Responses
Funder
National Health and Medical Research Council
Funding Amount
$580,249.00
Summary
The immune system rapidly responds to infectious pathogens to eradicate such microbes and limit the damage they can inflict upon the host. Individuals with primary immunodeficiencies have defects in the development and/or function of the cells of their immune system and are more susceptible to infectious diseases. This study will investigate such individuals to identify functions for specific genes and immune cells in order to understand the requirements for generating effective immune responses ....The immune system rapidly responds to infectious pathogens to eradicate such microbes and limit the damage they can inflict upon the host. Individuals with primary immunodeficiencies have defects in the development and/or function of the cells of their immune system and are more susceptible to infectious diseases. This study will investigate such individuals to identify functions for specific genes and immune cells in order to understand the requirements for generating effective immune responses.Read moreRead less
The Opposing Genetic Networks Underlying Plasticity Of Humoral Responses
Funder
National Health and Medical Research Council
Funding Amount
$667,783.00
Summary
The immune system makes antibody to clear bacterial and viral pathogens. Specialised types of antibody are needed for different pathogens. This project will study genetic changes that determine the specificity of an antibody response. Regulation of these genes may prohibit production of antibodies and inflammatory mediators that attack the body rather than foreign pathogens. Understanding these processes will identify points of therapeutic intervention for patients with immune disorders.
How are memories stored in the brain? We know much about the brain regions involved in memory storage but we know little or nothing about how individual memories are represented and stored within those brain areas. The purpose of this project is to label and manipulate the specific subsets of brain cells that store individual memories. We will label memory-bearing cells in multiple brain regions and then ask how the connections between those cells encode learned information in the brain.
Unravelling A New Fatty Acid Pathway Involved In Neuroexocytosis And Memory
Funder
National Health and Medical Research Council
Funding Amount
$539,631.00
Summary
This proposal build on the establishment by our laboratory of the assay capable of detecting free fatty acids, with great accuracy and sensitivity. Using this assay we have uncovered a completely new pathway highlighting the production of saturated free fatty acids linked to learning and memory. We will fully define how this pathway is regulated in the brain.