Unraveling Fibrosis By Pharmacological Targeting Of The G Protein-coupled Receptor, RXFP1
Funder
National Health and Medical Research Council
Funding Amount
$798,618.00
Summary
Peptides, with their high specificity and low toxicity profiles, are highly attractive alternatives to small molecule drugs. H2 relaxin, a peptide hormone, has a strong potential for treating fibrosis. However, the large size of H2 relaxin makes it difficult and expensive to manufacture. Once administered to patients, it is also quickly degraded. We have developed a small anti-fibrotic relaxin peptide, and propose to understand its mechanism of action and improve its therapeutic indices.
Modulation Of Feeding Through Pharmacological Targeting Of The Relaxin-3 Receptor RXFP3
Funder
National Health and Medical Research Council
Funding Amount
$584,955.00
Summary
Relaxin-3 is a neuropeptide that regulates a number of physiological processes, including food intake, suggesting that the relaxin-3 receptor RXFP3 may be a new target for treatment of eating disorders such as obesity. This project will develop new selective and high-affinity ligands for RXFP3, which will be critical pharmacological tools for the preclinical studies and evaluation of this system.
Development of Insulin-like peptide 5 (INSL5) peptide analogues as novel therapeutics. Insulin-like peptide 5 (INSL5) is a naturally-occurring hormone in the body that likely plays a role in the control of appetite. This project aims to develop new molecules based on INSL5 that could be suitable for use as drugs to treat various appetite-related disorders, such as obesity (where patients eat too much) or anorexia (where patients eat too little).
Solid phase synthesis of side-chain cross-linked peptide oligomers. This research will provide a unique opportunity to investigate the biological pathways and causative factors leading to diseases such as Alzheimer’s disease. Such information will guide the design and development of therapeutic strategies and diagnostic reagents.
Thioamide ligations: new technologies for peptide and protein synthesis. This project aims to develop novel amide-bond forming reactions for the chemical synthesis of peptides and proteins. New peptide ligation strategies, including an asparagine-based ligation and a residue-independent ligation will be developed that exploit the recent discovery of silver-promoted coupling reactions of thioamides. A novel late-stage, chemo-selective assembly of N-glycosylated asparagine residues in peptides and ....Thioamide ligations: new technologies for peptide and protein synthesis. This project aims to develop novel amide-bond forming reactions for the chemical synthesis of peptides and proteins. New peptide ligation strategies, including an asparagine-based ligation and a residue-independent ligation will be developed that exploit the recent discovery of silver-promoted coupling reactions of thioamides. A novel late-stage, chemo-selective assembly of N-glycosylated asparagine residues in peptides and proteins will also be developed. The outcomes of this research will lead to breakthroughs in synthetic methodologies for the assembly and functionalisation of peptides and proteins, thereby enabling access to a range of homogeneous, post translationally modified proteins though total chemical synthesis. These research outcomes will expand Australia's research capability and global competitiveness in the field of biotechnology, delivering significant benefits to the third largest manufacturing sector in Australia.Read moreRead less
Towards the development of orally active antimicrobial peptides with distinctive mode of action. This project aims to design and develop novel antibacterial compounds to address one of humankind's greatest health concerns, that of antibacterial resistance. These will be further modified to make them orally available, thus enhancing their therapeutic and clinical potential.
Bioactive Peptides as Pharmacological Tools and Novel Drug Leads. Bioactive peptides are produced by all organisms and play numerous critical physiological roles, including in cellular communication, host defence and capture of prey. Peptides have huge potential as tools for studying roles of signalling pathways and as novel drugs due to their high affinity and selectivity for various therapeutically relevant targets. However their use has been limited by poor in vivo stability. This project is ....Bioactive Peptides as Pharmacological Tools and Novel Drug Leads. Bioactive peptides are produced by all organisms and play numerous critical physiological roles, including in cellular communication, host defence and capture of prey. Peptides have huge potential as tools for studying roles of signalling pathways and as novel drugs due to their high affinity and selectivity for various therapeutically relevant targets. However their use has been limited by poor in vivo stability. This project is focused on studying structural features of a range of peptides and their contributions to both activity and to resistance against degradation, with the aim to develop stabilised bioactive peptide sequences for in vivo applications, allowing the full potential of peptides as drugs to be realised.Read moreRead less
Development and application of new peptide ligation methods for the synthesis and structure-function studies of glycoproteins. Novel synthetic technologies will be developed in this project to facilitate the preparation of glycoproteins, which are of widespread biological and therapeutic interest. These methods will enable the preparation of pure glycoproteins for detailed biochemical and functional studies eventually leading to therapeutic and diagnostic applications.
Functional studies of tyrosine sulfation using synthetic sulfoproteins. This project aims to address a lack of knowledge about how post-translational sulfation of tyrosine residues influences protein function. The project will develop a synthetic platform for the rapid and efficient generation of libraries of site-selectively sulfated proteins. The new methods will be used to study bioactive sulfated proteins secreted by ticks that dampen the inflammatory response and prevent blood from clotting ....Functional studies of tyrosine sulfation using synthetic sulfoproteins. This project aims to address a lack of knowledge about how post-translational sulfation of tyrosine residues influences protein function. The project will develop a synthetic platform for the rapid and efficient generation of libraries of site-selectively sulfated proteins. The new methods will be used to study bioactive sulfated proteins secreted by ticks that dampen the inflammatory response and prevent blood from clotting. Underpinned by the ability to access synthetic sulfoproteins, expected outcomes include a detailed understanding of how tyrosine sulfation can modulate function and stability of antibodies and proteins with anticoagulant and anti-inflammatory activities. Significant benefits of the project will include breakthrough technologies for the preparation of homogeneously modified proteins, which will strengthen Australia’s growing biotechnology sector.Read moreRead less