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Investigating the functional interaction between vasopressin and angiotensin receptors. Kidney disease resulting from diabetes is a major health issue for Australians, and indigenous Australians in particular. This project aims to enable improved therapies to be developed, as well as better inform doctors regarding the use of potential combinations of existing pharmaceuticals to treat this condition.
Bias and allostery at the calcium sensing receptor. This project aims to provide a mechanistic and dynamic picture of the structure, function and physiology of the human calcium sensing receptor (CaSR), which is critical for vertebrate life. By responding to chemicals in the body, it acts as a universal nutrient sensor to maintain extracellular calcium homeostasis and mediate biological functions, including neurotransmission, inflammation, digestion, blood pressure and development. However, it i ....Bias and allostery at the calcium sensing receptor. This project aims to provide a mechanistic and dynamic picture of the structure, function and physiology of the human calcium sensing receptor (CaSR), which is critical for vertebrate life. By responding to chemicals in the body, it acts as a universal nutrient sensor to maintain extracellular calcium homeostasis and mediate biological functions, including neurotransmission, inflammation, digestion, blood pressure and development. However, it is not known how this single receptor controls the actions of multiple ligands to mediate numerous functions. By elucidating the roles of the CaSR and its ligands, this project aims to better understand fundamental physiological processes.Read moreRead less
Understanding the mechanisms of class B GPCR-transducer coupling. Current effort in developing drugs targeting G protein-coupled receptors (GPCRs) often result in low success rate due to the lack of understanding of the complexity and the spatiotemporal control of receptor function. The research program aims to understand the molecular mechanisms of receptor/transducer selectivity. The proposal integrated multi-disciplinary approaches to provide a deeper understanding of how the receptor is acti ....Understanding the mechanisms of class B GPCR-transducer coupling. Current effort in developing drugs targeting G protein-coupled receptors (GPCRs) often result in low success rate due to the lack of understanding of the complexity and the spatiotemporal control of receptor function. The research program aims to understand the molecular mechanisms of receptor/transducer selectivity. The proposal integrated multi-disciplinary approaches to provide a deeper understanding of how the receptor is activated responding to different ligands. The anticipated outcome including an enhanced capacity for understanding the fundamental biology, a stronger national and international collaborations. This will provide significant benefits including expanded basic knowledge and improvements in drug development efficiency. Read moreRead less
Determinants of Expression, Assembly and Function of the Noradrenaline Transporter. The noradrenaline transporter protein that is the focus of this project is important for mental health because it belongs to the family of proteins where psychostimulants, such as cocaine, and drugs used in the treatment of depression act. The project will lead to exciting advances in our understanding of how the structure of this protein controls its functions, and potentially to the design of better antidepress ....Determinants of Expression, Assembly and Function of the Noradrenaline Transporter. The noradrenaline transporter protein that is the focus of this project is important for mental health because it belongs to the family of proteins where psychostimulants, such as cocaine, and drugs used in the treatment of depression act. The project will lead to exciting advances in our understanding of how the structure of this protein controls its functions, and potentially to the design of better antidepressant drugs and to the design of drugs to prevent the effects of cocaine.Read moreRead less
Pharmacological modification of retinal and visual function and relation to control of refractive error. Myopia (short-sightedness) affects many hundreds of millions of people worldwide and can lead to blindness. Drug treatments that prevent myopia are being developed, however there is no efficient way of determining who is at risk of myopia or who will benefit from these treatments. This fundamental research project will determine the retinal and visual effects of pharmacologic agents that inhi ....Pharmacological modification of retinal and visual function and relation to control of refractive error. Myopia (short-sightedness) affects many hundreds of millions of people worldwide and can lead to blindness. Drug treatments that prevent myopia are being developed, however there is no efficient way of determining who is at risk of myopia or who will benefit from these treatments. This fundamental research project will determine the retinal and visual effects of pharmacologic agents that inhibit myopia, with the aim of determining an ocular measure that is related to myopia, which is altered by drugs that are known to slow myopia progression, and that could be used as an indication of an agent's likely effectiveness.Read moreRead less
The molecular basis for efficacy at G protein coupled receptors. This project aims to investigate the molecular steps underlying the relationship between sensing by signal-transmitting proteins on the cell surface called G protein-coupled receptors and cellular response. The project aims to build on studies that have sought to understand the primary, molecular basis for this cellular volume control. This project seeks to use these novel approaches to fill this knowledge gap, providing a deeper u ....The molecular basis for efficacy at G protein coupled receptors. This project aims to investigate the molecular steps underlying the relationship between sensing by signal-transmitting proteins on the cell surface called G protein-coupled receptors and cellular response. The project aims to build on studies that have sought to understand the primary, molecular basis for this cellular volume control. This project seeks to use these novel approaches to fill this knowledge gap, providing a deeper understanding of how physiology and medicines work. The project expects to expand fundamental understanding of signal transmission at this receptor class. This project will deliver benefits including expanded basic knowledge and a contribution to future improvements in drug development.Read moreRead less
Discovering novel allosteric probes of muscarinic acetylcholine receptors. This project aims at fostering novel approaches to selectively target vital receptors in the human body, the muscarinic acetylcholine receptors (mAChRs). By harnessing the design of receptor mutations, compounds synthesis and fluorescent imaging, the project expects to develop new pharmacological tools for a family of receptors essential for the life of all vertebrates. By enriching our understanding of this family of rec ....Discovering novel allosteric probes of muscarinic acetylcholine receptors. This project aims at fostering novel approaches to selectively target vital receptors in the human body, the muscarinic acetylcholine receptors (mAChRs). By harnessing the design of receptor mutations, compounds synthesis and fluorescent imaging, the project expects to develop new pharmacological tools for a family of receptors essential for the life of all vertebrates. By enriching our understanding of this family of receptor, the project expects to provide significant benefits to the research field by impacting on future drug discovery efforts, not only at mAChRs, but at other structurally related receptors.Read moreRead less
Relaxin: molecular mechanisms of cardioprotection. Heart failure represents a major health and economic burden worldwide, for which there is currently no successful cure. This project will provide valuable information on the basic mechanisms associated with the vascular actions of the hormone relaxin that has shown great promise in clinical trials as a novel treatment for heart failure.
Exploring metabotropic glutamate receptor 5 bias, allostery and heteromers. This project aims to provide novel mechanistic and structural insights into metabotropic glutamate receptor 5 (mGlu5) function. The mGlu5 is an essential regulator of neurotransmission and higher order brain functions including learning and memory. This project expects to expand knowledge of the fundamental biological processes engaged by mGlu5 through exploration of three novel paradigms of receptor activity: allostery, ....Exploring metabotropic glutamate receptor 5 bias, allostery and heteromers. This project aims to provide novel mechanistic and structural insights into metabotropic glutamate receptor 5 (mGlu5) function. The mGlu5 is an essential regulator of neurotransmission and higher order brain functions including learning and memory. This project expects to expand knowledge of the fundamental biological processes engaged by mGlu5 through exploration of three novel paradigms of receptor activity: allostery, bias and heteromerisation. Expected outcomes also include generation of new pharmacological tools through interdisciplinary collaborative research between multiple institutions. There is significant expected economic benefit through commercialisation of new tools and facilitation of novel drug discovery.Read moreRead less
Probing norepinephrine transporter (NET) structure-function. More selective drugs are needed to improve the treatment of a range of diseases including pain, depression and anxiety. This project will apply advanced molecular pharmacology approaches to better understand how the norepinephrine transporter functions and where small molecules and conotoxins bind to inhibit its activity.