Mechanisms controlling enteroendocrine hormone secretion in human duodenum. This project aims to gain a deeper understanding of nutrient sensing pathways present in enteroendocrine cells within the human intestine. These cells control digestive function, blood glucose levels and food intake and are thus critical to digestion. This project will endeavour to be the first to assess the biology of human enteroendocrine cells and will use innovative approaches to deeply assess function from the level ....Mechanisms controlling enteroendocrine hormone secretion in human duodenum. This project aims to gain a deeper understanding of nutrient sensing pathways present in enteroendocrine cells within the human intestine. These cells control digestive function, blood glucose levels and food intake and are thus critical to digestion. This project will endeavour to be the first to assess the biology of human enteroendocrine cells and will use innovative approaches to deeply assess function from the level of the individual to isolated enteroendocrine cells.Read moreRead less
Characterisation of the oxygen-sensing asparaginyl hydroxylase, FIH-1, and hydroxylase-specific antagonists. This research will provide fundamental information on how cells and whole organisms can sense and respond accordingly to oxygen deficiency. This information is fundamental for our understanding of embryo development and adult life in different environments, and central to the diagnosis and treatment of diseases such as stroke, cardiovascular disease, and cancer. This research will contrib ....Characterisation of the oxygen-sensing asparaginyl hydroxylase, FIH-1, and hydroxylase-specific antagonists. This research will provide fundamental information on how cells and whole organisms can sense and respond accordingly to oxygen deficiency. This information is fundamental for our understanding of embryo development and adult life in different environments, and central to the diagnosis and treatment of diseases such as stroke, cardiovascular disease, and cancer. This research will contribute to our basic knowledge of these processes, provide invaluable information about the specific genes and proteins involved, and provide direct information about the therapeutic potential of specific drugs or inhibitors designed to target this oxygen response in human disease.Read moreRead less
Determining the regulation of vitamin D metabolism. The proposed project will lead to a better understanding of factors that influence the biological function of vitamin D. This will impact in several areas of human health and will provide new avenues for the development of preventative approaches and treatment of cancer. This project is based on the use of 'Frontier Technologies' that will be applied to elucidate basic biological questions.
The mechanisms and roles of receptor clustering in cell activation and wound healing by growth factors. Growth factors regulate cell proliferation, migration and differentation by interaction with receptors. Such receptors are usually localized at the cell surface, and require intracellular transduction systems to transmit the signal to the cell interior. We have recently shown the hormone-induced clustering of heterologous hormone receptors in cells, and that this occurs with the co-clustering ....The mechanisms and roles of receptor clustering in cell activation and wound healing by growth factors. Growth factors regulate cell proliferation, migration and differentation by interaction with receptors. Such receptors are usually localized at the cell surface, and require intracellular transduction systems to transmit the signal to the cell interior. We have recently shown the hormone-induced clustering of heterologous hormone receptors in cells, and that this occurs with the co-clustering of downstream signalling molecules at sites of engagement with the extracellular matrix. In addition, we have found that cells presented with an extracellular matrix respond better to subsequent growth factor stimulation. The project aims to determine the cellular mechanisms underlying receptor clustering and the basis of the receptor-extracellular matrix interaction. This will enhance our understanding of growth factor function in a number of conditions, including wound healing. We will extend our in vitro results to the animal model to define parameters for enhanced wound repair.Read moreRead less