Understanding allosteric modulation and functional selectivity at G Protein-Coupled Receptors (GPCRs). GPCRs are an important superfamily of proteins that are involved in a myriad of physiological processes and a wide range of serious illnesses. This project seeks to gain a more detailed understanding of new mechanisms of GPCR modulation and function that will be of direct relevance to drug discovery.
Movement of mitochondria between cells. This project aims to characterise how mitochondria move between cells into grafted cells with dysfunctional mitochondrial function. How mitochondria reach the acceptor cell and how they move from the donor cell is not known. The project will use a 'bottom-up' approach, starting from a reconstituted system, via in vitro, co-culture stage to a relevant biological model, increasing complexity and biological relevance. It will document that the process of mito ....Movement of mitochondria between cells. This project aims to characterise how mitochondria move between cells into grafted cells with dysfunctional mitochondrial function. How mitochondria reach the acceptor cell and how they move from the donor cell is not known. The project will use a 'bottom-up' approach, starting from a reconstituted system, via in vitro, co-culture stage to a relevant biological model, increasing complexity and biological relevance. It will document that the process of mitochondrial intercellular movement is dependent on intercellular bridges and a specific mobility system. The project is of high relevance for cell biology.Read moreRead less
Engineered Hydroxamic Acids for Zirconium-89 Positron Emission Tomography (PET) Imaging of Prostate Cancer. Positron emission tomography (PET) using a zirconium-89-ligand complex bound to a prostate-specific membrane antigen is used to detect and monitor prostate cancer. The hydroxamic acid-based ligand bound to zirconium has a high affinity towards iron, which can cause metal exchange in vivo and loss of radiotracer. The project will prepare new ligands with a higher specificity towards zirconi ....Engineered Hydroxamic Acids for Zirconium-89 Positron Emission Tomography (PET) Imaging of Prostate Cancer. Positron emission tomography (PET) using a zirconium-89-ligand complex bound to a prostate-specific membrane antigen is used to detect and monitor prostate cancer. The hydroxamic acid-based ligand bound to zirconium has a high affinity towards iron, which can cause metal exchange in vivo and loss of radiotracer. The project will prepare new ligands with a higher specificity towards zirconium over iron, and measure immuno-PET imaging activity. A second series of macrocyclic zirconium-specific ligands will be prepared to establish the relationship between variable water-lipid solubility and pharmacokinetic properties. The results will increase the capability of immuno-PET for prostate cancer detection and improve survival outcomes.Read moreRead less
Diene regenerative Diels-Alder reactions to access chemical scaffolds. This project aims to develop methods and strategies that allow rapid access to biologically active chemical scaffolds based on natural products. Natural products and their analogues are vital starting points for drug discovery as they provide unique chemical diversity. Without efficient methods for their production, it is not possible to exploit this diversity. This project will develop an efficient, modular strategy that wil ....Diene regenerative Diels-Alder reactions to access chemical scaffolds. This project aims to develop methods and strategies that allow rapid access to biologically active chemical scaffolds based on natural products. Natural products and their analogues are vital starting points for drug discovery as they provide unique chemical diversity. Without efficient methods for their production, it is not possible to exploit this diversity. This project will develop an efficient, modular strategy that will allow the preparation of a wide range of chemicals in a timely manner. Restoring access to potent biologically active materials is expected to generate chemical probes and lead to molecules that could have biomedical value.Read moreRead less
Dissecting catalysis and inhibition of a unique endo-acting mannose-processing glycosidase. Defects in the attachment of carbohydrates to proteins are a hallmark of diseases such as cancer and viral infection. This project will dissect the molecular details of the bond-making and breaking steps that occur during the synthesis of glycoproteins assisting in the development of innovative new drugs.
Mixing the jigsaw pieces of natural products: new molecules-new properties. This project aims to examine the capacity of exploiting the bacterial biosynthetic machinery to fast-track access to analogues of natural products. Due to increased drug resistance, new reservoirs of natural products are needed for evaluation as future drugs. Desferrioxamine B will be used as a model natural product to establish the biosynthesis of new analogues in bacterial culture supplemented with unsaturated, fluorin ....Mixing the jigsaw pieces of natural products: new molecules-new properties. This project aims to examine the capacity of exploiting the bacterial biosynthetic machinery to fast-track access to analogues of natural products. Due to increased drug resistance, new reservoirs of natural products are needed for evaluation as future drugs. Desferrioxamine B will be used as a model natural product to establish the biosynthesis of new analogues in bacterial culture supplemented with unsaturated, fluorinated or deuterated building blocks. The intended outcomes are to deliver advances in methods for generating structurally diverse pools of natural products, new label-free probes, knowledge of natural product biosynthesis, and excellence in training research students in frontier methods in chemical biology and drug discovery.Read moreRead less
Biogenesis inspired total synthesis of natural products. The project will study the chemical synthesis of a number of novel natural products. Most significantly, this project will deliver new methods for organic synthesis of complex molecules. The rewards from the total synthesis of bioactive compounds are enormous for the community and in the education and training of scientists.
New strategies for the stereoselective synthesis of Stemona alkaloids and the discovery of new bioactive molecules. The project aims to develop innovative methods to prepare bioactive natural products and their analogues with potential applications as new and safer therapeutic drugs and agricultural chemicals. These products would be of benefit to Australians in the future.
The effect of Pt binding to CTR1 on Cu homeostasis and cell phenotype. The copper transport protein CTR1 is commonly believed to transport active cisplatin (a platinum-based anticancer agent) into the cell, but this model is inconsistent with the chemical properties of platinum (Pt) and CTR1. The project aims to interrogate the interaction between CTR1 and Pt in cells by developing new chemical tools for the study of Pt species within cells. It will then study the effect of the CTR1-Pt interacti ....The effect of Pt binding to CTR1 on Cu homeostasis and cell phenotype. The copper transport protein CTR1 is commonly believed to transport active cisplatin (a platinum-based anticancer agent) into the cell, but this model is inconsistent with the chemical properties of platinum (Pt) and CTR1. The project aims to interrogate the interaction between CTR1 and Pt in cells by developing new chemical tools for the study of Pt species within cells. It will then study the effect of the CTR1-Pt interaction on copper homeostasis and cell phenotype. It is expected that the results will provide valuable information on the status of CTR1 and Pt following interaction, and reveal whether less toxic complexes are just as effective in decreasing cell malignancy as cisplatin itself.Read moreRead less
Control of immune recognition and response by microbial metabolites. This project aims to study immune recognition of microbial metabolites and develop reagents to control immune responses. Chemical synthesis will be used to develop new antigens for unconventional T cells and the first soluble agonists and antagonists of a glycolipid-sensing immune receptor. Expected outcomes include the discovery of new immune effectors, broadening our knowledge of the repertoire of small molecules that can be ....Control of immune recognition and response by microbial metabolites. This project aims to study immune recognition of microbial metabolites and develop reagents to control immune responses. Chemical synthesis will be used to develop new antigens for unconventional T cells and the first soluble agonists and antagonists of a glycolipid-sensing immune receptor. Expected outcomes include the discovery of new immune effectors, broadening our knowledge of the repertoire of small molecules that can be sensed by the immune system, and developing chemical approaches to promote or dampen immune responses. Major benefits include research training in chemical biology, strengthened international linkages and fundamental insights into the chemical basis of immune recognition and response.Read moreRead less