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A novel axis of cooperation between innate and adaptive immunity. The project aims to understand how two molecular components of the immune system, Complement and MHC, cooperate to protect the host. Further, these two molecules mediate trogocytosis, a little-studied form of intercellular communication, between two major immune cell types: dendritic cells and B cells. The project will be multidisciplinary, applying high-end microscopy, biochemistry, cell biology and immunology techniques. Person ....A novel axis of cooperation between innate and adaptive immunity. The project aims to understand how two molecular components of the immune system, Complement and MHC, cooperate to protect the host. Further, these two molecules mediate trogocytosis, a little-studied form of intercellular communication, between two major immune cell types: dendritic cells and B cells. The project will be multidisciplinary, applying high-end microscopy, biochemistry, cell biology and immunology techniques. Personnel will be trained in cutting-edge techniques. The project will expand knowledge on basic immunology and cell-cell cooperation. It will generate intellectual property for the biotechnology sector to develop new commercial products that might improve the health of humans and also animals of economic importance.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100830
Funder
Australian Research Council
Funding Amount
$464,928.00
Summary
Elucidating the genesis of MAIT cell-mediated immunity. T cells develop in the thymus and proceed to survey our body probing molecules that signal if anything is abnormal. A specialised subset of T cells, mucosal associated invariant T (MAIT) cells are crucial in detecting microbial molecules and infection, yet their numbers vary widely between individuals. A key problem is that the factors controlling their development and function are poorly understood. This proposal aims to decode this critic ....Elucidating the genesis of MAIT cell-mediated immunity. T cells develop in the thymus and proceed to survey our body probing molecules that signal if anything is abnormal. A specialised subset of T cells, mucosal associated invariant T (MAIT) cells are crucial in detecting microbial molecules and infection, yet their numbers vary widely between individuals. A key problem is that the factors controlling their development and function are poorly understood. This proposal aims to decode this critical issue in MAIT cell biology, using innovative tools to investigate the molecular basis underpinning their development in the thymus. This work will provide vital, fundamental discoveries into how MAIT cells are produced and regulated, as we ultimately wish to harness MAIT cells to improve human health. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100705
Funder
Australian Research Council
Funding Amount
$462,948.00
Summary
Decoding the enigmatic biology of human gamma-delta T cells. The immune system surveys our body examining molecules that signal whether or not everything is ok. T cells are a central to this and use their receptors to monitor these molecular signals. A specialised subset of T cells known as gamma-delta T cells are critical to detecting infection and cancer, yet their fundamental biology is poorly understood. This project aims to unravel this elusive biology. The aims are to understand 1. The div ....Decoding the enigmatic biology of human gamma-delta T cells. The immune system surveys our body examining molecules that signal whether or not everything is ok. T cells are a central to this and use their receptors to monitor these molecular signals. A specialised subset of T cells known as gamma-delta T cells are critical to detecting infection and cancer, yet their fundamental biology is poorly understood. This project aims to unravel this elusive biology. The aims are to understand 1. The diversity in function between gamma-delta T cell subsets, and 2. The diversity in gamma-delta T cell receptors and the molecules that these receptors detect. This work is essential for understanding gamma-delta T cell immunology which is critical if we ultimately wish to harness this to improve human health.Read moreRead less