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.
An Investigation Into The Molecular Basis Of MAIT Cell Recognition Of Vitamin B Based Metabolites
Funder
National Health and Medical Research Council
Funding Amount
$883,762.00
Summary
Mucosal associated invariant T cells (MAIT cells) are an abundant T-cell population in humans, that is found mostly in the gastrointestinal mucosa. We have recently shown that MAIT cells can be activated by metabolites of vitamin B. This proposal will investigate how the MAIT cells "see" vitamin B metabolites. This research will pave the way for novel therapeutics that can modulate MAIT cell activity.
An investigation into CD1a, a versatile antigen-presenting molecule. This project aims to investigate how T lymphocytes are activated by lipids presented by the skin-associated antigen-presenting molecule, CD1a. Using X-ray crystallography and cellular immunology, we will provide fundamental insight into this poorly understood immunological axis. We will determine the molecular basis for how CD1a presents diverse self and foreign lipids, and how such CD1a-lipid complexes are recognised by the r ....An investigation into CD1a, a versatile antigen-presenting molecule. This project aims to investigate how T lymphocytes are activated by lipids presented by the skin-associated antigen-presenting molecule, CD1a. Using X-ray crystallography and cellular immunology, we will provide fundamental insight into this poorly understood immunological axis. We will determine the molecular basis for how CD1a presents diverse self and foreign lipids, and how such CD1a-lipid complexes are recognised by the responding T cells. This basic science discovery project will provide substantial new knowledge in the burgeoning field of lipid-mediated immunity, which should ultimately lead to new therapies targeting the CD1a lipid display molecule to either prevent immune mediated damage or promote protective immunity as required.Read moreRead less
Structural And Functional Characterisation Of The Killer Cell Immunoglobulin-like Receptor (KIR) Family Of Natural Killer Cell Receptors
Funder
National Health and Medical Research Council
Funding Amount
$348,070.00
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 to guide in the selection of bone marrow donors in the treatment of leukemias as well as understanding how we fight off infections.
A molecular and functional investigation of innate-like T cells of the immune system. This project will investigate innate-like T cells, which are at a crossroad between innate and adaptive immunity. A complete knowledge of the cellular function and balance of these cells will offer potential for new immunotherapies associated with infectious and autoimmune disorders.
Discovery Early Career Researcher Award - Grant ID: DE130101504
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
An investigation into evolution and diversity within an innate immune recognition system. The innate immune system, which is critical for the host to combat infection, comprises a host of components that specifically recognise microbial products. This project is aimed at understanding the evolution and specificity underpinning a receptor family that is centrally involved in innate immunity.
The regulation of anti-viral immunity by host and viral proteins. Anti-viral immunity is initially triggered when specific immune sensors detect viral components within the cell. This project will use a combined functional/structural approach to investigate the specifics of immune activation by a pivotal immune sensor and use this information to understand how influenza A sabotages this specific immune response.
Discovery Early Career Researcher Award - Grant ID: DE220101491
Funder
Australian Research Council
Funding Amount
$443,312.00
Summary
A molecular investigation into metabolite-mediated T cell immunity. This project aims to undertake discovery research to investigate the roles of metabolites in T cell immunity. This project expects to generate new knowledge in the areas of cellular biology and immunology by using cutting-edge molecular and immunological approaches. This will provide fundamental insights into the mechanisms that govern microbial metabolite-based T cell immunity, which may advise future research into vaccines or ....A molecular investigation into metabolite-mediated T cell immunity. This project aims to undertake discovery research to investigate the roles of metabolites in T cell immunity. This project expects to generate new knowledge in the areas of cellular biology and immunology by using cutting-edge molecular and immunological approaches. This will provide fundamental insights into the mechanisms that govern microbial metabolite-based T cell immunity, which may advise future research into vaccines or therapeutics. In addition to knowledge gains, expected outcomes of this project include the development of innovative methodology and building international collaborations to enhance national research capabilities. This will place Australia at the forefront of conceptually innovative discovery in the life sciences.Read moreRead less
Recognition of lipid antigens by the immune system. T cells are a critical component of the immune system, protecting against a range of pathogens by detecting and responding to foreign molecules. Despite their importance, there is still much to learn about how T cells function. New types of T cells that respond to bacteria-derived lipid molecules, have recently been identified. This project aims to undertake a molecular and functional investigation into lipid-reactive T cells. This will provide ....Recognition of lipid antigens by the immune system. T cells are a critical component of the immune system, protecting against a range of pathogens by detecting and responding to foreign molecules. Despite their importance, there is still much to learn about how T cells function. New types of T cells that respond to bacteria-derived lipid molecules, have recently been identified. This project aims to undertake a molecular and functional investigation into lipid-reactive T cells. This will provide basic fundamental insight into a poorly understood, but crucial, component of the immune system as well as an opportunity to ultimately develop novel lipid-based vaccines.Read moreRead less
Histone deacetylase functions in immune cells. This project aims to define how an enzyme (a histone deacetylase) enables innate immune cells (macrophages) to respond to specific danger signals, such as those activating Toll-like Receptors. To identify processes that provide specificity to signal transduction pathways, this project will characterise protein targets and biological functions of a specific class IIa histone deacetylase in macrophages. This project expects to result in an understandi ....Histone deacetylase functions in immune cells. This project aims to define how an enzyme (a histone deacetylase) enables innate immune cells (macrophages) to respond to specific danger signals, such as those activating Toll-like Receptors. To identify processes that provide specificity to signal transduction pathways, this project will characterise protein targets and biological functions of a specific class IIa histone deacetylase in macrophages. This project expects to result in an understanding of histone deacetylases and protein deacetylation in immune cell responses which can be harnessed to manipulate cell functions for basic science and biotechnology uses.Read moreRead less