The role of the protease inhibitor Serpinb9 in antigen cross-presentation by dendritic cells. This project will provide fundamental new insights into antigen cross-presentation, a crucial facet of the immune system's response to viral infection or neoplastic cells. It will also provide a basis for future studies into mechanisms of immune tolerance and enhance our understanding of autoimmune disease.
The Mechanisms Of Epithelial Cell Survival That Govern Thymus Function
Funder
National Health and Medical Research Council
Funding Amount
$620,967.00
Summary
The thymus is an organ dedicated to the production of crucial immune cells, called T lymphocytes. Cancer treatments, such as radiation or chemotherapy, destroy thymic function and impair immune recovery in patients. We aim to uncover molecular processes that govern the life and death decisions of cells in the thymus. Our goal is to then use this information to develop treatments to protect this critical organ from damage and improve immune recovery following radiation or chemotherapy.
Understanding the critical processes that control cell death and using this knowledge to kill cells that have evaded death. Cell death is essential for protecting the body against cancer, and defects in cell death pathways contribute to cancer progression. To design new and better cancer therapies we must understand the critical processes which control cell death, and develop effective ways to either reset, or bypass, defects in cell death pathways that contribute to cancer. The program as outl ....Understanding the critical processes that control cell death and using this knowledge to kill cells that have evaded death. Cell death is essential for protecting the body against cancer, and defects in cell death pathways contribute to cancer progression. To design new and better cancer therapies we must understand the critical processes which control cell death, and develop effective ways to either reset, or bypass, defects in cell death pathways that contribute to cancer. The program as outlined will elucidate the process of mitochondrial outer membrane permeabilization, a critical event in cell death by apoptosis, and determine how to kill cells in which this event is blocked.Read moreRead less
Role of the PU.1 transcription factor in regulating lymphoid development. Haemopoiesis is a tightly regulated process and provides an important model for our understanding and application of stem cell biology. Perturbation of early haemopoiesis results in a number of important disorders including leukaemia, anaemia and immunodeficiency. The application of stem cells to many disease conditions is currently being pursued, however, in order to develop therapeutic interventions knowledge of normal c ....Role of the PU.1 transcription factor in regulating lymphoid development. Haemopoiesis is a tightly regulated process and provides an important model for our understanding and application of stem cell biology. Perturbation of early haemopoiesis results in a number of important disorders including leukaemia, anaemia and immunodeficiency. The application of stem cells to many disease conditions is currently being pursued, however, in order to develop therapeutic interventions knowledge of normal cellular differentiation is crucial. The studies outlined here aim to contribute to the understanding of the these processes and hence help to provide the framework for future studies aimed at more directly altering cell fate decision for clinical applications. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100097
Funder
Australian Research Council
Funding Amount
$675,000.00
Summary
An Automated Protein Nano-Crystallisation Facility. An automated protein nano-crystallisation facility:
The project aims to establish a high throughput protein nanocrystallisation and imaging facility for protein crystallography. Protein crystallography is an important field of biological research, however there are many proteins, such as integral membrane proteins and transient molecular complexes that are more challenging to crystallise. The facility aims to use state-of-the-art imaging and c ....An Automated Protein Nano-Crystallisation Facility. An automated protein nano-crystallisation facility:
The project aims to establish a high throughput protein nanocrystallisation and imaging facility for protein crystallography. Protein crystallography is an important field of biological research, however there are many proteins, such as integral membrane proteins and transient molecular complexes that are more challenging to crystallise. The facility aims to use state-of-the-art imaging and crystallisation techniques, including second order nonlinear imaging of chiral crystals (SONICC) imaging and lipid cubic phase approaches, to enable structural studies to be undertaken on challenging proteins. This information is often used for the rational development of therapeutics. The facility would support cutting-edge biological research In Australia.Read moreRead less
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
A structural and functional investigation into events within the immunological synapse. This project will provide fundamental insight into processes that control infection. Investigating processes central to immunity is important, as it will further the understanding of these critically-important events. Such knowledge will increase Australia's research standing, as well as having the potential to generate novel therapies
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100092
Funder
Australian Research Council
Funding Amount
$300,000.00
Summary
Fluorescence microscopy with optical tweezers: imaging cellular responses. Life relies on the ability of our cells to receive and respond to signals with pinpoint accuracy, involving both chemical and mechanical signals. This equipment will allow scientists to expose cells to both types of signals and measure the response at an unprecedented level of accuracy for the first time.
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