Pharmacological Inhibition Of IRAP As A Novel Antifibrotic Strategy
Funder
National Health and Medical Research Council
Funding Amount
$1,036,370.00
Summary
There are very few treatments that can reduce heart stiffening, called fibrosis, which is seen in patients with high blood pressure or in patients who have had a heart attack. This project will test new drugs that we have developed that act by a unique mechanism to reverse or prevent cardiovascular disease in patients with poorly-functioning hearts and blood vessels.
Is Overactive Bladder A 'Bladder Itch'? Identification Of Itch Specific Pathways Within The Bladder
Funder
National Health and Medical Research Council
Funding Amount
$720,585.00
Summary
Overactive bladder is a leading cause of nocturia, urgency and incontinence. These symptoms arise from sensory nerve fibres in the bladder. We have identified key irritant mechanisms, including the bile acid receptor TGR5 and Mrgpr family, thought to only exist in the skin, also innervate the bladder. We hypothesis that the clinical entity overactive bladder, is triggered by pathological activation of bladder afferents by such irritants and that overactive bladder is essentially a bladder itch.
Investigating the actions of anti-inflammatory pathways in chronic lung disease. There is an urgent need to develop better drugs for Chronic Obstructive Pulmonary Disease (COPD) as patients become resistant to currently used anti-inflammatory drugs with disease progression. This research will uncover fundamental biology into an important class of anti-inflammatory receptor termed ALX/FPR2. This receptor normally coordinates the clearance of infection and injured tissue and subsequently switches ....Investigating the actions of anti-inflammatory pathways in chronic lung disease. There is an urgent need to develop better drugs for Chronic Obstructive Pulmonary Disease (COPD) as patients become resistant to currently used anti-inflammatory drugs with disease progression. This research will uncover fundamental biology into an important class of anti-inflammatory receptor termed ALX/FPR2. This receptor normally coordinates the clearance of infection and injured tissue and subsequently switches off inflammation. Essential knowledge into why this receptor pathway fails to switch off inflammation will be determined. Furthermore, the development of targeting strategies to this receptor represents an innovative approach to blocking damaging and chronic airway inflammation.Read moreRead less
Understanding the biology of reactive oxygen species. This project will utilise forefront technologies to identify and characterise fundamental biological processes involving toxic free radicals that cause infectious disease and cancer. The approach synergises with researchers across disciplines and universities to ultimately identify future drugs to improve and maintain health.
Investigating The Effects Of Macrolides On Excessive Synthesis And Secretion Of Airway Mucins Using Novel Ex Vivo And In Vivo Approaches
Funder
National Health and Medical Research Council
Funding Amount
$520,821.00
Summary
Many people have difficulty breathing because the airway tubes that move air in and out of their lungs are blocked by excessive amounts of sticky mucus. Our project will use new techniques developed in our laboratories to investigate whether a group of medicines called “macrolides” can prevent the excessive production and release of mucus in the airways, and thus be beneficial in treating asthma, and potentially other lung diseases.
Research Fellowship: Protection Of Myocardial Function In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$631,010.00
Summary
Heart failure (HF) is a major cause of death in Australia. A/Prof Rebecca Ritchie heads Heart Failure Pharmacology at Baker IDI. Her research focuses on new drug strategies to maintain heart function in response to diabetes & heart attack, common precursors of HF. Many of the treatments discovered from this work are naturally-occurring antioxidants; enhancing their activity will ultimately reduce progression to HF & death in the >3 million Australians affected by these disorders.
Investigating A Novel Agent To Limit Brain Injury And Post-stroke Complications
Funder
National Health and Medical Research Council
Funding Amount
$412,429.00
Summary
Stroke is a leading cause of morbidity and mortality worldwide, but treatment options remain limited. The goal of this research project will be to examine the potential of new agent to protect the brain against stroke and to also treat complications that typically occur after stroke including infection and weight loss. It is anticipated that this project will ultimately lead to the development of an effective stroke therapy.
This proposal utilises forefront technologies to identify and characterise fundamental biological processes influenced by toxic free radicals that are triggered by viruses such as the flu and HIV. The approach is a synergistic collaboration between researchers with unique and complementary expertise across disciplines and across Australian and Irish universities to ultimately identify future drugs to treat viral disease.
Understanding endogenous allosteric modulators of G protein-coupled receptors. Major life science challenges include how chemicals outside cells signal to proteins inside, how this results in physiological responses, and how dysfunction of these processes leads to pathophysiology. Despite the critical importance of G protein-coupled receptors (GPCRs), much remains to be learned about their regulation by endogenous and synthetic molecules. This project aims to address this gap, by building on rec ....Understanding endogenous allosteric modulators of G protein-coupled receptors. Major life science challenges include how chemicals outside cells signal to proteins inside, how this results in physiological responses, and how dysfunction of these processes leads to pathophysiology. Despite the critical importance of G protein-coupled receptors (GPCRs), much remains to be learned about their regulation by endogenous and synthetic molecules. This project aims to address this gap, by building on recent ground-breaking studies that have been performed, by focusing on alternative binding sites of GPCRs called allosteric sites. The major hypothesis is that these allosteric sites are widespread across GPCRs because the body produces endogenous allosteric ligands that remain largely unidentified, but which can play vital roles in biology.Read moreRead less
Pontine control of adaptive breathing behaviour in health and disease. This project will develop an understanding of the fundamental brain mechanisms associated with adaptive breathing during behaviour such as speech or swallowing. Adaptive breathing is impaired in lung disease, dementia and autism. This project will provide new insight to global brain function and treatment of central respiratory disorder.