V-ATPases Subunit D2 Is Critical For Acdification And Bone Resorption.
Funder
National Health and Medical Research Council
Funding Amount
$531,264.00
Summary
Overproduction and excessive activity of osteoclasts underlines many lytic bone disorders such as osteoporosis, Paget's disease and tumor-induced bone loss. The vacuolar proton pump (V-ATPase) located on the plasma membrane of the osteoclast is critical for osteoclastic bone resorption and, therefore represents a potential molecular target for the discovery of novel bone anti-resorptive agents. The proposed project addresses the fundamental role of the V-ATPase in osteoclast differentiation, aci ....Overproduction and excessive activity of osteoclasts underlines many lytic bone disorders such as osteoporosis, Paget's disease and tumor-induced bone loss. The vacuolar proton pump (V-ATPase) located on the plasma membrane of the osteoclast is critical for osteoclastic bone resorption and, therefore represents a potential molecular target for the discovery of novel bone anti-resorptive agents. The proposed project addresses the fundamental role of the V-ATPase in osteoclast differentiation, acidification and bone resorption. Understanding the molecular and cellular mechanisms by which V-ATPases regulate osteoclast function and bone resorption will facilitate the development of novel and selective inhibitors for the treatment of lytic bone disordersRead moreRead less
Regulation Of The Cardiac Sodium/proton Exchanger During Ischaemia, Reperfusion And Preconditioning
Funder
National Health and Medical Research Council
Funding Amount
$101,000.00
Summary
Heart attacks are currently treated with drugs to dissolve the clot in the coronary artery or by catheterisation with the aim of restoring blood flow to the ischaemic heart muscle. If restoration of blood flow occurs soon after the heart attack, the ischaemic region can recover completely. However if treatment is delayed, the ischaemic region may not recover. This project concerns the mechanisms that are involved in the myocardial damage which occurs after moderate periods of ischaemia. A transp ....Heart attacks are currently treated with drugs to dissolve the clot in the coronary artery or by catheterisation with the aim of restoring blood flow to the ischaemic heart muscle. If restoration of blood flow occurs soon after the heart attack, the ischaemic region can recover completely. However if treatment is delayed, the ischaemic region may not recover. This project concerns the mechanisms that are involved in the myocardial damage which occurs after moderate periods of ischaemia. A transport protein, the sodium-proton exchanger, is involved in recovery and if its action is blocked with an inhibitory drug, recovery of the ischaemic myocardium is improved. However clinical trials of the drug in humans have given variable results. We are investigating the regulation of this exchanger and believe that such information is essential to the efficient use of the inhibitory drugs in humans and may identify other pathways to improving recovery after ischaemia.Read moreRead less
A Prospective Study Investigating Implications Of Bioactive Lipids For Diagnosis And Treatment Of Schizophrenia
Funder
National Health and Medical Research Council
Funding Amount
$324,480.00
Summary
This study will investigate the role of fatty acids (lipids) in schizophrenia. Studies in blood cells and in the brains of patients with schizophrenia have shown that these lipids and related products are altered in schizophrenia. We are now able to measure separate lipid metabolites in the living human brain using a technique called magnetic resonance spectroscopy. Until recently it was only possible to assess lipid metabolites as a group, limiting interpretation. Thanks to a newly available im ....This study will investigate the role of fatty acids (lipids) in schizophrenia. Studies in blood cells and in the brains of patients with schizophrenia have shown that these lipids and related products are altered in schizophrenia. We are now able to measure separate lipid metabolites in the living human brain using a technique called magnetic resonance spectroscopy. Until recently it was only possible to assess lipid metabolites as a group, limiting interpretation. Thanks to a newly available imaging system at the Brain Imaging Research Institute and a new analysis technique, we will be able to measure single lipid metabolites in the living human brain. Simultaneously we will also measure lipids and related enzymes in red blood cells that are responsible for the regulation of these lipids. Preliminary data has shown that there is a strong correlation between these two measures. Furthermore we will investigate the genes that are responsible for the production of these enzymes. By repeating the same tests after 12 weeks we hope to understand how the newer antipsychotic drugs act. Two easy clinical tests (a skin and breath test) will help us to implement the findings in daily clinical practice (diagnostic markers for patients at risk) . With such a multi-level approach we hope to contribute to a new understanding of the origins of schizophrenia going beyond the traditional concepts. The findings might also have direct implications for treatment. Preliminary results are very promising but also contradictory. Therefore it is even more important to carefully investigate the role of these lipids in schizophrenia.Read moreRead less