Oxytocin receptor PET ligands: imaging the love receptor’s engagement. This project aims to develop a positron emission tomography (PET) ligand for the oxytocin receptor. This novel platform is significant as it will allow the scientific community to answer questions about the role of the oxytocin receptor in the important process of social behaviour which underlies quality of life. This knowledge gap has remained unanswered for decades due to the lack of specific techniques to measure oxytocin ....Oxytocin receptor PET ligands: imaging the love receptor’s engagement. This project aims to develop a positron emission tomography (PET) ligand for the oxytocin receptor. This novel platform is significant as it will allow the scientific community to answer questions about the role of the oxytocin receptor in the important process of social behaviour which underlies quality of life. This knowledge gap has remained unanswered for decades due to the lack of specific techniques to measure oxytocin receptor engagement. It is also significant as it will equip Australian startup Kinoxis Therapeutics to progress their molecules to market, a process enabled by measuring oxytocin receptor engagement. Our dual expertise on the oxytocin receptor and PET ligand development uniquely situate us to generate this technology.Read moreRead less
How lipid binding proteins shape the activity of nuclear hormone receptors. This project aims to explore how a family of lipid binding proteins control organ specific activation of nuclear receptors – receptors that play a key role in generating energy and are critical for life. The project will employ chemical, molecular, cell biology approaches to generate new knowledge about lipid binding protein-receptor interactions and how these complexes dictate receptor activation. The outcomes could pro ....How lipid binding proteins shape the activity of nuclear hormone receptors. This project aims to explore how a family of lipid binding proteins control organ specific activation of nuclear receptors – receptors that play a key role in generating energy and are critical for life. The project will employ chemical, molecular, cell biology approaches to generate new knowledge about lipid binding protein-receptor interactions and how these complexes dictate receptor activation. The outcomes could provide a roadmap to design drugs that interact with the right protein in the right tissue and in doing so dramatically enhance drug specificity. This will benefit the success of drug treatments which require stimulation of a therapeutic response at a target site, and avoidance of potentially toxic activity at other locations.Read moreRead less