The Role Of Connexins In Blood Pressure Regulation: Use Of A Conditional Gene Expression System
Funder
National Health and Medical Research Council
Funding Amount
$583,767.00
Summary
Cell coupling through gap junctions is said to play an important role in regulating blood flow and blood pressure. However data obtained from mice, in which specific gap junctions are deleted, may be compromised by compensatory changes in other junctions. We have validated a new method for rapidly and reversibly altering gap junctions in adult mice with oral sugar. This technique will enable us to directly determine whether interference with cell coupling affects blood flow and blood pressure.
Understanding Local And Regional Determinants Of EDHF And NO Dysfunction In Resistance Arteries In Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$771,295.00
Summary
Diabetes is a serious and increasing health burden worldwide. Most of the sickness and death associated is due to complications arising in the blood vessels. The inner lining of blood vessels in small arteries uses several different mechanisms to ensure proper blood flow, and in diabetes these are impaired. This study will reveal the cellular mechanisms involved and identify pathways for therapeutic intervention to alleviate the debilitating effects of small artery disease.
Aberrant Oligosaccharide Processing Of Nox2-oxidase As A Mechanism Of Vascular Oxidative Stress In Atherosclerosis
Funder
National Health and Medical Research Council
Funding Amount
$552,565.00
Summary
Excessive production of free radicals by an enzyme called Nox2 may be a cause of artery disease leading to heart attacks and strokes. This study will identify whether the addition of sugarchains to Nox2 causes it to be expressed at the surface of cells allowing the free radicals it produces to exit the cell and cause damage to the blood vessel wall. Charaterising this new pathway of excessive free radical production may pave the way for new diagnostics and treatments for artery disease.
Targeting Arginase In Peripheral Arterial Occlusive Disease
Funder
National Health and Medical Research Council
Funding Amount
$243,945.00
Summary
Peripheral artery occlusive disease causes narrowing of large peripheral blood vessels which can result in severe pain, gangrene and stroke. Its prevalence is steadily increasing in western countries. This proposal aims to characterize the role of an enzyme (arginase) in PAOD and determine whether it may be a new drug target for treatment of this disease.
Mechanisms Of Protease-activated Receptor-2-mediated Bronchoprotection
Funder
National Health and Medical Research Council
Funding Amount
$354,758.00
Summary
The incidence of asthma continues to increase globally, yet there have been few real therapeutic advances. Our research, however, has recently uncovered a novel mechanism that protects the airways from inflammatory diseases like asthma. We have found that the layer of cells that line the airways - the epithelium - acts as a detector of early inflammatory events and releases anti-inflammatory substances. The lungs achieve this level of protection via 'sensor' molecules called receptors which are ....The incidence of asthma continues to increase globally, yet there have been few real therapeutic advances. Our research, however, has recently uncovered a novel mechanism that protects the airways from inflammatory diseases like asthma. We have found that the layer of cells that line the airways - the epithelium - acts as a detector of early inflammatory events and releases anti-inflammatory substances. The lungs achieve this level of protection via 'sensor' molecules called receptors which are located in the epithelium. In the case of our discovery, these receptors are called protease-activated receptors (PARs) to highlight the unique manner in which they are turned on or activated by enzymes called proteases. We have discovered that the epithelium of the lungs stores these enzymes and probably releases them during the inital stages of infection. Once released, these enzymes are detected by PARs on epithelial cells which then release substances that inhibit multiple inflammatory pathways. This mechanism protects the airways from effects that make breathing difficult, as in asthma. We have confirmed that this system provides protection in the airways of intact animals. The purpose of this projects outlined in this application is to examine the effects of activating one PAR, PAR2, on several processes in the lung, in order to characterise the individual events and processes that underlie the protective response. These studies will enable us to determine whether synthetic compounds that activate PAR2 are potential novel compounds for the treatment of diseases like asthma.Read moreRead less
MECHANISMS OF CEREBROVASCULAR REGULATION IN HEALTH AND DISEASE
Funder
National Health and Medical Research Council
Funding Amount
$216,430.00
Summary
Failure of the cerebral circulation to meet the brain's immediate high nutritive requirements results in stroke in just a few minutes. Stroke continues to be a major cause of death and disability, and this major medical challenge requires urgent and significant research at the basic level to better understand mechanisms of normal, and then abnormal, regulation of cerebral artery function. The project will examine the importance of a novel mechanism in regulating brain blood flow by affecting the ....Failure of the cerebral circulation to meet the brain's immediate high nutritive requirements results in stroke in just a few minutes. Stroke continues to be a major cause of death and disability, and this major medical challenge requires urgent and significant research at the basic level to better understand mechanisms of normal, and then abnormal, regulation of cerebral artery function. The project will examine the importance of a novel mechanism in regulating brain blood flow by affecting the degree of opening of the cerebral arteries. This mechanism involves activation of an enzyme, Rho-kinase, which is present in the wall of blood vessels. The applicants believe that this process plays an important role in the normal, healthy regulation of blood supply to the brain. Moreover, there are strong reasons for us to speculate that the function of this enzyme is abnormally high in two disease states that are associated with an increased risk of stroke - high blood pressure and subarachnoid haemorrhage. We will employ a variety of techniques to assess the importance of Rho-kinase in cerebral artery function in the living body, and also in isolated segments of artery. The results are expected to provide major new insight into mechanisms that regulate brain blood flow, and the knowledge gained here may lead to better therapies to prevent or treat stroke.Read moreRead less
Does NADPH Oxidase Link Gender, Hormone Replacement Therapy And Outcome After Stroke?
Funder
National Health and Medical Research Council
Funding Amount
$481,439.00
Summary
This project will assess whether the reduction of a novel mechanism to open brain arteries (i.e. via activation of 'Nox' proteins and generation of oxygen radicals) is a possible explanation of why hormone replacement therapy (HRT) increases the risk of stroke in postmenopausal women. We will compare brain artery function of normal mice with those deficient in certain Nox genes in models of menopause, HRT and stroke. This knowledge should lead to safer stroke therapies in women and men.
Molecular Interactions Of Novel Conotoxin Inhibitors Of The Noradrenaline Transporter
Funder
National Health and Medical Research Council
Funding Amount
$392,036.00
Summary
A novel class of conotoxins (chi-conotoxins) has been discovered in the venom of an Australian cone snails, Conus marmoreus. Chi-conotoxins are the first peptide inhibitors of the noradrenaline transporter. From binding studies, it appears they act at a new site, remote from the site of action of antidepressants. This project is aimed at understanding how and where this novel class of peptide binds to the transporter. The results of this study are designed to maximise the potential of these pate ....A novel class of conotoxins (chi-conotoxins) has been discovered in the venom of an Australian cone snails, Conus marmoreus. Chi-conotoxins are the first peptide inhibitors of the noradrenaline transporter. From binding studies, it appears they act at a new site, remote from the site of action of antidepressants. This project is aimed at understanding how and where this novel class of peptide binds to the transporter. The results of this study are designed to maximise the potential of these patented peptides to be used as leads to the development of a new class of therapeutic for controlling the adverse effects of inadequate noradrenaline balance.Read moreRead less
Heme-oxidised Soluble Guanylyl Cyclase, A Mechanism-based Target For Vascular Diagnostics And Vasoprotective Therapy
Funder
National Health and Medical Research Council
Funding Amount
$524,456.00
Summary
Nitric oxide is produced in the inner lining of blood vessels and maintains blood flow via binding to a specific protein, sGC. In disease, sGC is defective and can be targeted by a novel group of drugs which are more active in diseased versus normal blood vessels. This project will examine the use of these drugs as markers of cardiovascular disease and in the treatment of high cholesterol and may lead to the development of new diagnostic tools and therapies for vascular complications.