Anti-atherosclerotic Effects Of Angiotensin Fragments & Non-AT1 Receptors: Validation As Innovative Therapeutic Targets
Funder
National Health and Medical Research Council
Funding Amount
$512,065.00
Summary
In Australia the largest cause of death is coronary heart disease (CHD) leading to heart attacks or stroke and claiming a staggering 28,000 lives a year. Atherosclerosis is one of the leading causes of cardiovascular disease, with diseased vessels not able to fully dilate and the plaque that has built up inside these vessels impeding blood flow and possibly rupturing, resulting in heart attacks and stroke. One of the major players in the development and progression of atherosclerosis is the horm ....In Australia the largest cause of death is coronary heart disease (CHD) leading to heart attacks or stroke and claiming a staggering 28,000 lives a year. Atherosclerosis is one of the leading causes of cardiovascular disease, with diseased vessels not able to fully dilate and the plaque that has built up inside these vessels impeding blood flow and possibly rupturing, resulting in heart attacks and stroke. One of the major players in the development and progression of atherosclerosis is the hormone, angiotensin II. Angiotensin II has been found to trigger many factors that cause thickening of the vessel wall, inflammation and imbalances in vasodilator capacity (e.g. oxidative stress and endothelial dysfunction), all of which contribute to atherosclerosis. Clinical trials with drugs that inhibit the formation of angiotensin II (ACE inhibitors), or block the action of angiotensin II (angiotensin receptor antagonists), have demonstrated a significant decrease in mortality in patients with high risk for cardiovascular disease. However their mechanism(s) of action are not fully understood as the circulating levels of shorter fragments of angiotensin II (such as Ang IV and Ang (1-7)) are raised in the blood when these drugs are used and may contribute to the protective effects of these drugs. Importantly, we have found that both Ang IV and Ang (1-7) have protective effects in atherosclerotic blood vessels. Therefore, we hypothesise that fragments of angiotensin II (such as Ang IV and others) exert anti-atherogenic effects via distinct binding sites that oppose the effects caused by angiotensin II, and that these may be partly responsible for the cardio-protective effects of the ACE inhibitors and angiotensin receptor antagonists. Thus, information gained in our study will be useful in directing future prescription practices in clinical management of CHD and stroke, and for designing new therapeutic compounds for the management of atherosclerosis.Read moreRead less
Cardiovascular disease is a leading cause of death in Australia, accounting for 36% of all deaths in 2004-05. Diseased blood vessels are its most common form, and the underlying process is atherosclerosis. Atherosclerosis is characterised by plaque formation in blood vessels. Plaque formation is problematic, and may lead to blood vessel blockage. We aim to identify novel targets that prevent plaque formation.
Retinal Vascular Structure And Function As Markers Of Endothelial Dysfunction.
Funder
National Health and Medical Research Council
Funding Amount
$104,664.00
Summary
Coronary heart disease (CHD) due to atherosclerosis (thickening of blood vessels) remains the leading cause of death in Australia, but visualisation of heart arteries usually requires invasive testing. Blood vessels in the eye (retina), can be viewed easily and may be indicative of blood vessel function in the heart and rest of the body. This study aims to explore the relationship between eye and heart blood vessels. Retinal imaging may thus enable earlier detection of patients at risk of CHD.
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.
Hypertension Induced Inflammation In The Endothelium: The Signalling Pathways Involved
Funder
National Health and Medical Research Council
Funding Amount
$58,313.00
Summary
Patients with high blood pressure are at an increased risk of heart attack and stroke in western societies. It appears that increased pressure induces an inflammation response which leads to the development of atherosclerosis. The aim of this project is to understand the vascular inflammatory mechanisms induced by high blood pressure with the view to prevent blood pressure-related complications such as atherosclerosis.
Suppression Of NADPH Oxidase-derived Oxidative Stress By Anti-sense Probes And HDL In Human Vascular Endothelium
Funder
National Health and Medical Research Council
Funding Amount
$455,250.00
Summary
In Australia, coronary heart disease (CHD) causing heart attacks remains the largest cause of death, claiming a staggering 28,000 lives a year. Oxidative stress, resulting from increased production of oxygen free radicals in arteries, is an important cause of CHD, heart attacks and strokes. We seek to understand how such oxyradicals are produced in the key cells that form the lining of all arteries, known as the vascular endothelium. By using novel DNA-type molecules (known as anti-sense) develo ....In Australia, coronary heart disease (CHD) causing heart attacks remains the largest cause of death, claiming a staggering 28,000 lives a year. Oxidative stress, resulting from increased production of oxygen free radicals in arteries, is an important cause of CHD, heart attacks and strokes. We seek to understand how such oxyradicals are produced in the key cells that form the lining of all arteries, known as the vascular endothelium. By using novel DNA-type molecules (known as anti-sense) developed in our laboratory, which block a particular gene causing oxidative stress, we will determine whether this gene is responsible for the formation of oxyradicals in human and mouse cells grown in culture. In addition, we will explore whether this gene is turned on by factors known to be involved in CHD. Finally, we will also investigate whether the good cholesterol known as HDL can act to prevent oxidative stress in human cells, as we discovered it appears to do in living arteries in vivo. If we find it has the same protective effect in endothelium, we will determine how it does this, and which component proteins of the HDL particle are important. This might suggest new treatments to prevent acute events leading to heart attack and stroke, and possibly new applications where damage appears to result from acute oxidative stress, such as in the brain soon after a stroke has occurred. We also have a plan to develop antisense drugs that will target the important gene specifically in the affected endothelium. In addition, we have other specific new drugs that will block this system in arteries. Simultaneously we will be testing the role of this gene in mouse and rabbit models of artery disease, for both our types of drugs might provide valuable new therapeutic agents to target the underlying cause of CHD and not just its symptoms as current drugs do.Read moreRead less
Single-chain Antibodies For Directed Stem Cell Homing And Targeting Of Effector Cells In Vascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$596,677.00
Summary
Regenerative cellular therapy e.g. with adult stem cells is a promising novel medical therapy. However, until now there is no reliable method to direct cells to areas where they are needed. We aim to develop a biotechnological approach based on genetically tailored antibody molecules that will allow cell targeting. As a pilot project we will test whether this approach improves lipid deposition and hardening of arteries.
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.
A Program Of Research Addressing The Transition From Health To Advanced Cardiovascular Disease.
Funder
National Health and Medical Research Council
Funding Amount
$13,017,057.00
Summary
Cardiovascular disease (CVD) is the major cause of death and disability in Australia and worldwide. This burden will increase without new knowledge. We will address knowledge gaps that delay more effective prevention and control. Our team has a strong track record of influencing clinical practice of CVD prevention, treatment and technology transfer. For many, the first indication of a heart problem is sudden heart attack or death. By understanding mechanisms we aim to develop new tests and treat ....Cardiovascular disease (CVD) is the major cause of death and disability in Australia and worldwide. This burden will increase without new knowledge. We will address knowledge gaps that delay more effective prevention and control. Our team has a strong track record of influencing clinical practice of CVD prevention, treatment and technology transfer. For many, the first indication of a heart problem is sudden heart attack or death. By understanding mechanisms we aim to develop new tests and treatments that prevent heart attack, heart failure and other serious consequences of atherosclerosis.Read moreRead less