Discovery and development of novel insulin sensitising compounds for the treatment of Type 2 diabetes. Diabetes is one of the major health problems facing Australia today, and current treatments are proving inadequate to combat this disease. We previously discovered a new drug with potential for development for the treatment of diabetes. In this project, we will identify how this drug works to combat diabetes in cell and animal models, and use novel chemistry approaches to modify the drug to imp ....Discovery and development of novel insulin sensitising compounds for the treatment of Type 2 diabetes. Diabetes is one of the major health problems facing Australia today, and current treatments are proving inadequate to combat this disease. We previously discovered a new drug with potential for development for the treatment of diabetes. In this project, we will identify how this drug works to combat diabetes in cell and animal models, and use novel chemistry approaches to modify the drug to improve its properties and reduce potential side-effects. The outcomes of this project will be understanding of a new biological process that contributes to the development of diabetes, and the discovery and characterisation of new chemical compounds that could be developed as drugs to treat diabetes.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100058
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Molecular reporters for measuring proteostasis capacity in cells. This project aims to develop fluorescent dyes to report on the change in unfolded protein load, which reflects the proteostasis status in real time in cells under stress conditions. Proteostasis is a housekeeping process cells undertake to maintain the proper folding and functions of proteins. Perturbation of proteostasis has been linked to neurodegenerative diseases, but chemical probes cannot measure the proteostasis capacity in ....Molecular reporters for measuring proteostasis capacity in cells. This project aims to develop fluorescent dyes to report on the change in unfolded protein load, which reflects the proteostasis status in real time in cells under stress conditions. Proteostasis is a housekeeping process cells undertake to maintain the proper folding and functions of proteins. Perturbation of proteostasis has been linked to neurodegenerative diseases, but chemical probes cannot measure the proteostasis capacity in cells. Intended outcomes include a mechanistic understanding of the relationship between protein misfolding, aggregation and proteostasis. This is expected to ultimately benefit the diagnosis of protein folding diseases, including dementia, and improve the quality of life.Read moreRead less
Dissecting a major sulfur cycling pathway: sulfoglycolysis. This project will elucidate the molecular details of sulfoglycolysis, a group of metabolic pathways through which the sulfur-containing sugar sulfoquinovose is catabolized. The project will employ an integrated metabolomic, chemical, biochemical and structural approach to dissect how various sulfoglycolytic organisms degrade sulfoquinovose. This project will deliver a deeper understanding of this major biochemical pathway and develop ne ....Dissecting a major sulfur cycling pathway: sulfoglycolysis. This project will elucidate the molecular details of sulfoglycolysis, a group of metabolic pathways through which the sulfur-containing sugar sulfoquinovose is catabolized. The project will employ an integrated metabolomic, chemical, biochemical and structural approach to dissect how various sulfoglycolytic organisms degrade sulfoquinovose. This project will deliver a deeper understanding of this major biochemical pathway and develop new chemical and metabolic approaches to manipulate sulfur cycling in the environment. Benefits will include biotechnology applications of newly discovered proteins, and sustainable approaches to reduce our dependence on agricultural fertilisers.Read moreRead less