Inhibition of membrane-bound carbonic anhydrases with small molecules as a novel approach to target a safe and effective treatment for solid tumours. Over 85 per cent of human cancers are solid tumours and the prognosis for patients with advanced solid tumours is extremely poor owing to resistance to conventional chemo- and radio- therapies. Our research will underpin the development of new, safe and effective drug treatment options for cancer patients with solid tumours.
The National First Nations Research Network will mark a transformation in First Peoples livelihoods and Health Equity. Delivered and led by Indigenous Peoples for Indigenous Peoples, guided by self-determination, this Network will nurture culturally safe environments, connect expertise, catalyse research methods, training and development. The Network will create career pathways to achieve national capability and generational growth, for sustained health and wellbeing of our communities.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE140100068
Funder
Australian Research Council
Funding Amount
$280,000.00
Summary
Biomembrane Interactions Facility. Biomembrane interactions facility: Characterisation of membrane interactions is important for further advances in biomedical science and drug design. The biomembrane interactions facility will provide modern infrastructure to study membrane biophysics and membrane protein structure and interactions in mammalian, protozoan and bacterial cells. The facility will include a solid-state nuclear magnetic resonance spectrometer and optical analytical instrumentation a ....Biomembrane Interactions Facility. Biomembrane interactions facility: Characterisation of membrane interactions is important for further advances in biomedical science and drug design. The biomembrane interactions facility will provide modern infrastructure to study membrane biophysics and membrane protein structure and interactions in mammalian, protozoan and bacterial cells. The facility will include a solid-state nuclear magnetic resonance spectrometer and optical analytical instrumentation and biosensor equipment. These will enable determination of molecular structure and dynamics within biomembranes and determination of the rates and mechanisms of cell membrane processes; nanoscale measurement of cell membrane properties; and resolution of the interactions between membrane components in cells.Read moreRead less
Improving Health Outcomes For Aboriginal Australians With Chronic Disease Thru Strategies To Reduce Systems Barriers To
Funder
National Health and Medical Research Council
Funding Amount
$2,997,256.00
Summary
The research aims to improve outcomes for Aboriginal people with chronic disease, through strategies of care that address health system barriers. The project aims to understand barriers and then to develop, implement and evaluate appropriate models of care that incorporate policy development and engagement. The project is to incorporate research partnerships and Indigenous sector capacity development.
Chemical-biology approaches to pathway selective adenosine receptor ligands. This project aims to develop new chemical-biology tools and approaches for selectively targeting signalling pathways mediated by G protein-coupled receptors (GPCR). GPCRs are an important family of cell surface signalling proteins that are responsible for the regulation of numerous vital physiological functions. The A1 adenosine receptor is an important model and therapeutically relevant GPCR that will be the focus of t ....Chemical-biology approaches to pathway selective adenosine receptor ligands. This project aims to develop new chemical-biology tools and approaches for selectively targeting signalling pathways mediated by G protein-coupled receptors (GPCR). GPCRs are an important family of cell surface signalling proteins that are responsible for the regulation of numerous vital physiological functions. The A1 adenosine receptor is an important model and therapeutically relevant GPCR that will be the focus of this project. Compounds known as bitopic ligands, which can interact with distinct binding sites (termed orthosteric and allosteric sites), will be explored as pathway selective agents capable of activating the signalling pathways mediating the desired effect in preference to those producing adverse effects. Longer-term benefits include the identification of bioactive compounds with more selective modes of action and improved safety profiles.Read moreRead less
Biosynthetic LEGO: enzymatic redesign to produce new vancomycin analogues. This project aims to uncover the reengineering potential of the biosynthetic machinery that produces glycopeptide antibiotics by advancing our understanding of how the core peptide production line functions. Natural product biosynthesis often produces complex peptide structures, with one important example being the glycopeptide antibiotics. This project expects to generate new knowledge about enzymatic peptide biosynthesi ....Biosynthetic LEGO: enzymatic redesign to produce new vancomycin analogues. This project aims to uncover the reengineering potential of the biosynthetic machinery that produces glycopeptide antibiotics by advancing our understanding of how the core peptide production line functions. Natural product biosynthesis often produces complex peptide structures, with one important example being the glycopeptide antibiotics. This project expects to generate new knowledge about enzymatic peptide biosynthesis using a highly interdisciplinary approach and previously developed tools. The anticipated outcomes of this project will be an enhanced understanding of how such complex peptide biosynthesis is performed, which is knowledge vital for future efforts to reengineer such biosynthetic peptide assembly lines as a series of modular LEGO blocks to produce new bioactive peptides.Read moreRead less
Gut Absorption of Constrained Peptides for Local and Systemic Targeting. Aims: This project aims to investigate how peptides are absorbed across the intestinal wall and distributed to organs and fluids in a rodent model by combining bio-analysis and pharmacokinetics with high-resolution microscopy and imaging.
Significance: This project expects to generate the most comprehensive survey to date of the pathways and mechanisms of peptide absorption, biodistribution and immune cell targeting, by ....Gut Absorption of Constrained Peptides for Local and Systemic Targeting. Aims: This project aims to investigate how peptides are absorbed across the intestinal wall and distributed to organs and fluids in a rodent model by combining bio-analysis and pharmacokinetics with high-resolution microscopy and imaging.
Significance: This project expects to generate the most comprehensive survey to date of the pathways and mechanisms of peptide absorption, biodistribution and immune cell targeting, by implementing innovative approaches.
Expected Outcomes: Expected outcomes include significant new knowledge and a new multi-disciplinary platform for measuring peptide absorption.
Benefits: This should provide significant benefits by informing the future design of peptides for supplements, therapeutics and carriers. Read moreRead less
Rational design of new drug candidates for the treatment of Trypanosoma cruzi infection. There is a serious shortage of safe and effective drugs to treat Chagas disease which is caused by a parasitic infection. This project aims to design and identify new drug candidates by defining the disposition profile within the body which is necessary to achieve a therapeutic effect.
Structure and activity determination of membrane-active peptides. Membrane-active peptides, such as antimicrobial and amyloid (Ab) peptides, play an important role in disease. With the growth of antibiotic resistance and increase in Alzheimer’s disease, which is epitomised by plaques of Ab, new drugs are required. Although Ab is toxic in neuronal cell cultures and disrupts cell membranes, the mechanism is unknown. Antimicrobial peptides that target bacterial membranes have evolved as a defence m ....Structure and activity determination of membrane-active peptides. Membrane-active peptides, such as antimicrobial and amyloid (Ab) peptides, play an important role in disease. With the growth of antibiotic resistance and increase in Alzheimer’s disease, which is epitomised by plaques of Ab, new drugs are required. Although Ab is toxic in neuronal cell cultures and disrupts cell membranes, the mechanism is unknown. Antimicrobial peptides that target bacterial membranes have evolved as a defence mechanism against infection and, since membranes show little genetic adaptation, could be drug candidates. Model membranes will be developed to elucidate the mechanism of action and key molecular features that determine affinity for membrane lipids of an antimicrobial peptide and full length Ab peptides.Read moreRead less