This project will investigate the factors that regulate the development and maintenance of a recently identified population of white blood cells called MAIT cells. MAIT cells are abundant in humans yet poorly understood. A better understanding of how these cells are regulated, and how they can be targeted in diseases, is necessary if we want to ultimately use these cells for immunotherapy.
Understanding The Complexity Of Antigen Presentation
Funder
National Health and Medical Research Council
Funding Amount
$774,540.00
Summary
I have developed and established the use of mass spectrometry to identify and quantitate ligands of antigen presenting molecules to understand the breadth of immune responses in a variety of human disease states including autoimmunity, cancer, infection and allergy. By embedding the technology in disease focussed research programs I will define the molecular bases of these diseases and the important immunological targets that will provide new avenues for therapeutic development and vaccines.
Cancer immunotherapy by “checkpoint blockade” boosts the immune response and leads to tumour rejection in some patients. To improve immunotherapy, information will be sought on the capacity of membrane vesicles prepared from dendritic cells (DC) to stimulate immune cells (T cells) in mice and elicit tumour rejection. Experiments are proposed to trace the fate of the vesicles after injection and improve tumour rejection by combination with checkpoint blockade and addition of cytokines.
I am a cellular immunologist with expertise in antigen processing-presentation, CTL determinant selection and immunodominance, T cell differentiation and, cancer immunotherapeutic trials and cancer vaccine development.
Characterisation Of An Antigen Presenting Cell Unique To Spleen
Funder
National Health and Medical Research Council
Funding Amount
$420,606.00
Summary
The body depends on a range of defence mechanisms to remove invaders that enter by various routes. Antigen presenting cells are central to immunity in that they engulf and destroy dead cells and pathogens and present pieces of those pathogens or 'antigens' to white blood cells called T and B lymphocytes. These cells then start to fight the infection or disease. A new type of antigen presenting cell will be investigated for its particular ability to arrest blood-borne pathogens and disease.
Priming, Recruitment And Retention Of Influenza Virus Specific CD8 T Cells In The Upper Airways
Funder
National Health and Medical Research Council
Funding Amount
$633,371.00
Summary
Influenza virus gains entry into the body by inhalation and initiates its replication cycle within the upper airways. This early stage of infection, when the amount of influenza virus is low, provides the ideal window of opportunity for an effective immune response to limit disease progression. In this proposal we will define the immunity that can be evoked within the upper airways and determine immune mechanisms left behind that can safeguard this region from this important respiratory pathogen
The Molecular Basis Of HLA-linked Drug Hypersensitivity
Funder
National Health and Medical Research Council
Funding Amount
$827,536.00
Summary
Adverse drug reactions are one of the leading causes of death in hospitalised patients. We discovered a new mechanism that links these reactions to recognition of drug induced changes in immunological self, resulting from interactions of drugs with immune receptors. This project continues to probe the mechanisms of immune mediated drug reactions by examining the basis of life threatening reactions to drugs used to treat epilepsy, gout and commonly used drugs such as penicillin and aspirin.