Investigating The Delivery Of Cytotoxic T Cell Lytic Granules And The Microenvironment Of The Immunological Synapse
Funder
National Health and Medical Research Council
Funding Amount
$355,169.00
Summary
T cells recognise infected or cancer cells and eliminate them from the body. They kill their targets by tightly attaching and releasing toxic proteins, which cause the target to undergo cell suicide. This research will use high resolution imaging to investigate the environment of the synapse between the two cells and understand parameters required for the delivery of a lethal hit. This will provide powerful insights into the working of the cell, and may identify novel intervention targets
Investigating The Role Of TCR Avidity In Influenza Virus-specific CD8 T Cell Responses
Funder
National Health and Medical Research Council
Funding Amount
$83,142.00
Summary
One of the constituents of the immune system is the cytotoxic, or killer, T cells and these are important in the overall protection from viral infection. Activation of these T cells is mediated by signalling through the T cell receptor (TCR). This study will definitively determine how the strength with which the TCR binds to the activating ligand, can influence the quality of virus-specific T cell immune responses after infection. This has implications for vaccine design.
The Role Of The Dendritic Cell Surface Molecule Clec9A In Dendritic Cell Subset Function And Dead Cell Recognition
Funder
National Health and Medical Research Council
Funding Amount
$526,878.00
Summary
Dendritic cells (DC) are sentinels of the immune system. DC monitor the environment and regulate tolerance to self versus immunity to dangerous material. Different types of DC perform different jobs. We have identified a new surface molecule, Clec9A, on some mouse and human DC. We will investigate the function of Clec9A in the immune response. We will also use Clec9A to help unite mouse and human DC biology, since until now there have been few useful marker molecules common to both species.
Regulation Of Natural Killer Cell Homeostasis By Multiple Components Of The Immune System
Funder
National Health and Medical Research Council
Funding Amount
$327,151.00
Summary
Differentiation and homeostasis of immune cell populations such as CD4 and CD8 T cells and dendritic cells has been key to understanding their function during inflammation. In contrast, late stage natural killer (NK) cell differentiation has largely been ignored. Given the key role of NK cells in providing innate effector immunity and shaping adaptive responses, a better understanding of the cues that regulate their differentiation is clearly warranted.
The Function Of Transcription Factor SCL In T Cell Development.
Funder
National Health and Medical Research Council
Funding Amount
$504,750.00
Summary
SCL is a gene which is abnormally expressed in a large percentage of human T cell leukaemias. Mouse models that increase SCL levels have demonstrated that T cell maturation is abnormally affected by SCL. Thus, providing a clue as to how T cell leukemias arise. By utilising recombinant DNA technology we are now able to control SCL levels in T cell maturation. We can either increase the level of SCL using pharmacological reagents or we can genetically remove SCL from maturing T cells. This double- ....SCL is a gene which is abnormally expressed in a large percentage of human T cell leukaemias. Mouse models that increase SCL levels have demonstrated that T cell maturation is abnormally affected by SCL. Thus, providing a clue as to how T cell leukemias arise. By utilising recombinant DNA technology we are now able to control SCL levels in T cell maturation. We can either increase the level of SCL using pharmacological reagents or we can genetically remove SCL from maturing T cells. This double-edged approach will allow us to monitor the effects of SCL on maturing T cells with a precision that has never previously been achieved. Results from this approach will provide new insights into how T cell leukaemia develops and provide the foundation for new rational based treatments.Read moreRead less
Chemokine Mediated Collaboration Between T Cells And Dendritic Cells During Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$342,384.00
Summary
The immune system protects us from foreign pathogens by using multiple immune cell types. Immune cells need to migrate and interact with each other in order to function properly. When immune cells fail to migrate appropriately, autoimmune diseases or immunodeficiency may develop. By understanding the molecules regulating their migration, we can promote or inhibit immune cell function.
I am an cellular immunologist determining the mechanisms by which immunity to foreign organisms is generated, how tolerance to self tissues is maintained, and how the immune system iscriminates between foreign organisms and self.
Receptors And Ligands Regulating Human NK Cell Proliferation
Funder
National Health and Medical Research Council
Funding Amount
$692,040.00
Summary
A white blood cell called a Natural Killer (NK) cell is critical in the early control of viral infections and cancer. NK cells kill the diseased cells and secrete immunological hormones (cytokines) that alter how cells of the blood and immune systems respond. These functions of NK cells are markedly increased when NK cells are stimulated to divide. This project seeks to understand how NK cell proliferation is controlled. Receptors that recognise 'self' inhibit NK cell function and cell division ....A white blood cell called a Natural Killer (NK) cell is critical in the early control of viral infections and cancer. NK cells kill the diseased cells and secrete immunological hormones (cytokines) that alter how cells of the blood and immune systems respond. These functions of NK cells are markedly increased when NK cells are stimulated to divide. This project seeks to understand how NK cell proliferation is controlled. Receptors that recognise 'self' inhibit NK cell function and cell division thereby preserving self and destroying diseased cells. Yet many NK cells express both an inhibitory and activating receptor for this same 'self' protein. We will investigate what determines the outcome of this competing information. Many NK cell receptors remain to be identified and we will use a gene expression approach and monoclonal antibodies to identify these and determine how they affect NK cell proliferation. We will use molecular engineering to construct multimeric arrays of new NK cell receptors to search for the ligand molecules that they interact with on other cells. Identifying NK cell receptors and their ligands regulating NK cell proliferation and function will enable us to understand the role of these cells in health and in inflammatory diseases and cancer.Read moreRead less
Interplay Of Innate And Adaptive Immunity To Influenza A Virus
Funder
National Health and Medical Research Council
Funding Amount
$555,693.00
Summary
Influenza is an acute febrile respiratory illness caused by influenza virus infection, and may trigger potentially life-threatening complications especially in the young and elderly. Immunity against influenza virus involves integration of the innate and adaptive immune system. We will use cutting-edge 2-photon microscopy to determine the orchestration of innate and adaptive immune cell interactions during viral infection. Results may provide for enhanced therapeutic or protective measures.