Investigating gamma/delta T cell receptor recognition determinants. The immune system has evolved to protect hosts from pathogens. T cells are a critical component of the immune system that can recognise infected host cells. However, there remains many facets of T cell function that we do not understand. This project aims to investigate a major aspect of T cell immunity that is poorly understood, namely, gamma/delta T cell immunity. Specifically, using a multi-disciplinary approach, the anticip ....Investigating gamma/delta T cell receptor recognition determinants. The immune system has evolved to protect hosts from pathogens. T cells are a critical component of the immune system that can recognise infected host cells. However, there remains many facets of T cell function that we do not understand. This project aims to investigate a major aspect of T cell immunity that is poorly understood, namely, gamma/delta T cell immunity. Specifically, using a multi-disciplinary approach, the anticipated outcome of the project is to unearth the molecular recognition determinants of gamma/delta T cells. The intended outcome is to provide basic fundamental insights and conceptual advances into a poorly understood, but crucial, component of the immune system. Read moreRead less
Investigating the atomic structure of an immune cell inhibitory receptor. T cells play a key role in the adaptive immune system, whose reactivity must be controlled to prevent aberrant reactivity. Central to the function of T cells is the T cell antigen receptor, and a host of co-stimulatory molecules, co-receptors and inhibitory receptors. This proposal, in partnership with Immutep Ltd, aims to gain a basic understanding of the structure and function of a key inhibitory receptor found on T cel ....Investigating the atomic structure of an immune cell inhibitory receptor. T cells play a key role in the adaptive immune system, whose reactivity must be controlled to prevent aberrant reactivity. Central to the function of T cells is the T cell antigen receptor, and a host of co-stimulatory molecules, co-receptors and inhibitory receptors. This proposal, in partnership with Immutep Ltd, aims to gain a basic understanding of the structure and function of a key inhibitory receptor found on T cells, termed the Lymphocyte activation gene-3 (LAG-3). The proposal utilises a combination of cellular immunology and structural biology to gain insight into the form and function of the LAG-3 molecule. Ultimately this fundamental knowledge can be used by the biotechnology industry.Read moreRead less
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
Intramembrane Mechanics of Immunoreceptor Signalling. The cells of the immune system constantly survey the body for markers of injury and infection through molecular sensors that are responsive to the presence of pathogens, tumours and damaged cells. The goal of this project is to understand how the mechanical action of these molecular sensors direct the transmission of information to the cell interior.
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
A study into post-translational modifications on adaptive immunity. Using proteomics, structural biology and cellular immunology, this project aims to provide a greater understanding of the impact of PTMs on the immune system. The immune system combats pathogens by mounting T-cell responses against foreign antigens present in infected cells. However, T-cells activated by self-antigens that are inadvertently presented by healthy cells can cause aberrant T-cell reactivity and disease. Post-transla ....A study into post-translational modifications on adaptive immunity. Using proteomics, structural biology and cellular immunology, this project aims to provide a greater understanding of the impact of PTMs on the immune system. The immune system combats pathogens by mounting T-cell responses against foreign antigens present in infected cells. However, T-cells activated by self-antigens that are inadvertently presented by healthy cells can cause aberrant T-cell reactivity and disease. Post-translational modifications (PTMs) are common in the host's proteins, but surprisingly little is known about their effect on T-cell immunity.Read moreRead less
Defining the molecular architecture of a lymphocyte-activating receptor complex. A robust immune response requires activation of sentinel T cells. This project will seek to understand the architecture of receptors at the T cell surface that allow these important immune cells to sense the presence of pathogens that react accordingly.
Australian Laureate Fellowships - Grant ID: FL160100049
Funder
Australian Research Council
Funding Amount
$2,915,738.00
Summary
A molecular investigation into immune function. A molecular investigation into immune function. The project aims to understand how key immune recognition events enable immunity. This project would use a multidisciplinary approach empowered by technological innovations, including the latest advances in atomic and molecular imaging. This research is expected to identify new approaches for the biotechnology industry.
Metabolite- and lipid-based immunity. This project aims to investigate T-cell immunity to lipids and metabolites. The immune system protects hosts from pathogens, and uses T-cells to recognise infected host cells. However, many facets of T-cell function are not understood. This project will unearth the evolutionary and molecular correlates of lipid- and metabolite-based immunity across diverse species. This will provide basic fundamental insights and conceptual advances into a poorly understood, ....Metabolite- and lipid-based immunity. This project aims to investigate T-cell immunity to lipids and metabolites. The immune system protects hosts from pathogens, and uses T-cells to recognise infected host cells. However, many facets of T-cell function are not understood. This project will unearth the evolutionary and molecular correlates of lipid- and metabolite-based immunity across diverse species. This will provide basic fundamental insights and conceptual advances into a poorly understood, but crucial, component of the immune system.Read moreRead less
Lifespan-dependent molecular shaping of the T cell receptor repertoire. Mammals have an intricate and highly complex immune system, whose function alters throughout life. Why and how this occurs is very unclear however, yet remains a crucial question. This project aims to provide fundamental knowledge on how the human lifespan shapes specific T cell receptors and determine molecular mechanisms underlying gain-of-function and loss-of-function during immunologically distinct phases of life. This p ....Lifespan-dependent molecular shaping of the T cell receptor repertoire. Mammals have an intricate and highly complex immune system, whose function alters throughout life. Why and how this occurs is very unclear however, yet remains a crucial question. This project aims to provide fundamental knowledge on how the human lifespan shapes specific T cell receptors and determine molecular mechanisms underlying gain-of-function and loss-of-function during immunologically distinct phases of life. This project will provide analysis of multi-dimensional, high throughput datasets to identify fundamental links between the transcriptional landscape and TCR signatures across human lifespan, thus will significantly answer key immunological questions in the field.Read moreRead less