The macrophage nucleus - its form and function during migration in vivo. As cells migrate through tissues, they encounter complex, 3-dimensional environments that provide cues to guide them and present obstacles in their path. This project focuses on macrophages, a large immune cell capable of both amoeboid and mesenchymal modes of migration. The nucleus is the largest organelle and its bulk and stiffness must be managed as migrating cells travel through constrictions. The project uses specialis ....The macrophage nucleus - its form and function during migration in vivo. As cells migrate through tissues, they encounter complex, 3-dimensional environments that provide cues to guide them and present obstacles in their path. This project focuses on macrophages, a large immune cell capable of both amoeboid and mesenchymal modes of migration. The nucleus is the largest organelle and its bulk and stiffness must be managed as migrating cells travel through constrictions. The project uses specialised high-end microscopy and genetic methods to examine how the nucleus of migrating zebrafish macrophages deforms, repositions and is restructured during migration in living tissues, and how this influences macrophage locomotion. The goal is to provide fundamental insights into the cell biology of macrophage migration.Read moreRead less
Nuclear alarmins escalate tissue immune responses. Humans and other animals are constantly exposed to potential threats, including microbes on and near the body. Animals can live with such dangers because these everyday encounters are made harmless by the immune system. It is unclear how cells distinguish low-danger threats from high-danger threats. This proposal seeks to reveal how immune cells identify increasing levels of threat and appropriately escalate their responses. Expected outcomes in ....Nuclear alarmins escalate tissue immune responses. Humans and other animals are constantly exposed to potential threats, including microbes on and near the body. Animals can live with such dangers because these everyday encounters are made harmless by the immune system. It is unclear how cells distinguish low-danger threats from high-danger threats. This proposal seeks to reveal how immune cells identify increasing levels of threat and appropriately escalate their responses. Expected outcomes include new insights into how immune cells and tissues respond according to the posing threat. Project benefits include understanding how to manipulate danger responses for future basic research and commercial applications, and fundamental understanding of how animals flourish in a dangerous world.Read moreRead less
Mitochondria as sensors of environmental threats. This project aims to understand how energy-generating mitochondria control immune responses, both in immune cells called macrophages and in the nematode Caenorhabditis elegans (a free-living roundworm used as a model organism to study gene function and evolutionary biology). The project expects to advance knowledge of how a process called mitochondrial fission enables cells to respond to environmental threats. Expected outcomes include important ....Mitochondria as sensors of environmental threats. This project aims to understand how energy-generating mitochondria control immune responses, both in immune cells called macrophages and in the nematode Caenorhabditis elegans (a free-living roundworm used as a model organism to study gene function and evolutionary biology). The project expects to advance knowledge of how a process called mitochondrial fission enables cells to respond to environmental threats. Expected outcomes include important conceptual advances in cell biology and genetics, new international and national collaborations, and improved methods for cell biology research. Anticipated benefits include a knowledge base that can be indirectly applied in the long term in the development of new strategies to combat infections.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100823
Funder
Australian Research Council
Funding Amount
$442,482.00
Summary
Elucidating ATPase function during NLRP3 inflammasome assembly. Humans and animals are constantly exposed to microbes, which inhabit their external environment as well as body surfaces such as the skin and gut. We are, however, able to co-exist with these microbes, because our immune system protects us from these everyday encounters. This proposal will reveal how an important immune protein called NLRP3 senses microbes and other physiological processes. When NLRP3 senses such factors and is acti ....Elucidating ATPase function during NLRP3 inflammasome assembly. Humans and animals are constantly exposed to microbes, which inhabit their external environment as well as body surfaces such as the skin and gut. We are, however, able to co-exist with these microbes, because our immune system protects us from these everyday encounters. This proposal will reveal how an important immune protein called NLRP3 senses microbes and other physiological processes. When NLRP3 senses such factors and is activated, it induces the release of messenger substances to alert other immune cells. This research will deliver fundamental knowledge of how animals normally co-exist with microbes.Read moreRead less
New Frontiers in Innate Immunity. This program aims to define how the immune system senses and responds to environmental cues. By combining interdisciplinary approaches with cutting-edge imaging and spatial biology technologies, this program expects to reveal how immune sensor proteins are regulated at the molecular, cellular and tissue level. Outcomes of this program include unparalleled insights into molecular mechanisms that underpin effective functioning of the immune system, training of fut ....New Frontiers in Innate Immunity. This program aims to define how the immune system senses and responds to environmental cues. By combining interdisciplinary approaches with cutting-edge imaging and spatial biology technologies, this program expects to reveal how immune sensor proteins are regulated at the molecular, cellular and tissue level. Outcomes of this program include unparalleled insights into molecular mechanisms that underpin effective functioning of the immune system, training of future scientists, and strengthening international collaborations across academia and industry. This will contribute to a high-quality workforce for research and innovation, and secure Australia’s position at the forefront of immunology research driven by cutting-edge technologies. Read moreRead less
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
Programmed cell death signalling in innate immunity. This proposal aims to address the under-explored potential for programmed cell death to promote innate immune cell signalling, which is a critical and fundamental biological process. It aims to generate new knowledge in the areas of cell death and innate signalling using innovative interdisciplinary approaches and discover new molecules that impact innate inflammatory responses. The expected outcomes of this project are to enhance our basic un ....Programmed cell death signalling in innate immunity. This proposal aims to address the under-explored potential for programmed cell death to promote innate immune cell signalling, which is a critical and fundamental biological process. It aims to generate new knowledge in the areas of cell death and innate signalling using innovative interdisciplinary approaches and discover new molecules that impact innate inflammatory responses. The expected outcomes of this project are to enhance our basic understanding of cell death, and build interdisciplinary collaborations. This work should provide significant benefit to the economy and health of Australians, as it is expected to identify molecules that will be of interest to the pharmaceutical and biotechnology industries.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100827
Funder
Australian Research Council
Funding Amount
$458,737.00
Summary
Delineating the developmental requirements for stem-like T cells. Stem-like CD8 T cells are critical for sustaining long-term systemic T cell activity. The signalling required for their development, however, remains elusive. Integrating multidisciplinary expertise, cutting-edge technology and highly innovative methods, this project aims to define the signalling cues provided by tissue microenvironment that control the development and maintenance of stem-like T cells, and thereby dictate systemic ....Delineating the developmental requirements for stem-like T cells. Stem-like CD8 T cells are critical for sustaining long-term systemic T cell activity. The signalling required for their development, however, remains elusive. Integrating multidisciplinary expertise, cutting-edge technology and highly innovative methods, this project aims to define the signalling cues provided by tissue microenvironment that control the development and maintenance of stem-like T cells, and thereby dictate systemic immunity. This project is expected to generate fundamental knowledge on basic immunology and T cell biology, which can benefit the academic, public health and biotechnology sectors by enhancing the international standing of Australian research on basic immunology and fostering new commercial opportunities. Read moreRead less
Elucidating the roles of steroid receptors in mitochondria. This project aims to elucidate the roles of newly discovered steroid receptors in the functions of mitochondria. The project will characterise their impact on cellular respiration, oxidative stress, and the induction of inflammation. By defining these processes in the healthy state and in response to common environmental challenges of infection and smoke exposure, the project will characterise the fundamental biology of entirely new pro ....Elucidating the roles of steroid receptors in mitochondria. This project aims to elucidate the roles of newly discovered steroid receptors in the functions of mitochondria. The project will characterise their impact on cellular respiration, oxidative stress, and the induction of inflammation. By defining these processes in the healthy state and in response to common environmental challenges of infection and smoke exposure, the project will characterise the fundamental biology of entirely new processes of how normal body hormones and administered steroids may function. This may eventually lead to new and more effective ways to control inflammation that will have significant benefits to mammalian health and improve health care and agriculture outcomes.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