The Structural Basis Of The Interaction Of Human Relaxins With Their Receptors.
Funder
National Health and Medical Research Council
Funding Amount
$489,000.00
Summary
Human Gene 2 (H2) relaxin is a peptide hormone structurally related to insulin and has numerous biological actions related to its roles during pregnancy. It exerts these primarily by inducing the breakdown of collagen and the formation of new blood vessels while simultaneously stimulating tissue growth and inhibiting cell death. Its functions have led to several potential therapeutic roles for relaxin being explored. These include the treatment of fibrotic disorders and peripheral vascular disea ....Human Gene 2 (H2) relaxin is a peptide hormone structurally related to insulin and has numerous biological actions related to its roles during pregnancy. It exerts these primarily by inducing the breakdown of collagen and the formation of new blood vessels while simultaneously stimulating tissue growth and inhibiting cell death. Its functions have led to several potential therapeutic roles for relaxin being explored. These include the treatment of fibrotic disorders and peripheral vascular disease. H2 relaxin is the principal expression product in vivo and has been shown to exert a wide range of physiological responses beyond those normally associated with pregnancy. We have recently discovered another human - H3 - relaxin that is expressed primarily in the brain which strongly suggests a neuropeptide role. Surprisingly, H2 and 3 relaxins each act via different G-protein coupled receptors. We will perform detailed structure-function studies to determine how these relaxins impart their specific biological actions. Modern chemical synthesis protocols will be used to prepare each of these complex peptides in adequate quantities for detailed secondary and tertiary structural study. Analogues containing modified residues and global domains will be prepared and assayed for characteristic relaxin agonist and antagonist activity. Sophisticated biomolecular interaction analyses will be used to identify differences in receptor binding regions for the two relaxins. The results, together with those obtained by three-dimensional structural analysis using NMR spectroscopy, will allow us to ultimately define the key features of the H2 and 3 hormones that are responsible for selective receptor binding and specific relaxin activity. We will then be able to design smaller, more stable, orally active relaxin mimetics. Such compounds will have great potential for therapeutic application in the treatment of fibrosis or as biological and pharmacological probes of relaxin action.Read moreRead less
The Structural Basis Of The Interaction Of Human Relaxins With Their Receptors.
Funder
National Health and Medical Research Council
Funding Amount
$573,807.00
Summary
Relaxin is a peptide that is involved in the regulation of the birth process. It has considerable promise as an anti-fibrotic agent. Recently, another relaxin-like peptide, relaxin-3, was identified and shown to be brain-specific. It modulates the stress response and appetite. Both relaxins act upon different receptors to elicit their biological effects. To exploit their clinical potential, we will determine how these peptides selectively bind and ativate their individual receptors.
G protein-coupled receptors are proteins that exist on every human cell, where they sense, and respond to environmental stimuli. Because of their importance they are targeted by drugs to treat many diseases. However little is known about how drugs activate these receptors and this has hindered new drug development. I use state-of-the-art technology to determine how drugs activate receptors and develop new methods for drug discovery. This work will have major impact on the Pharmaceutical industry
Novel Candidate Genes, Lung Function And Allergic Airways Disease
Funder
National Health and Medical Research Council
Funding Amount
$581,892.00
Summary
We propose to study airway remodelling (structural changes to the airway) and in asthma using human samples and rodent models of asthma. We are particularly interested in investigating the role of trefoil peptide 2 and relaxin, two genes identified as determining lung function. To do this we need to understand the mechanisms of airway remodelling and its impact on disease severity in the patient. A strength of this study is availability of samples from a large study of human asthma.
Role Of Viruses In The Development Of Lung Disease In Cystic Fibrosis
Funder
National Health and Medical Research Council
Funding Amount
$1,223,186.00
Summary
This study will investigate how lung disease starts in babies with cystic fibrosis and the role of viral infections in this process. The new knowledge gained will help us move towards treatments that prevent or delay the start of lung disease, something not currently possible. We believe this new treatment paradigm will lead to improved quality and extent of life of those with cystic fibrosis.