Characterization Of Sex-Specific Differences In Cardiovascular Adaptation In The First Three Years Of Life
Funder
National Health and Medical Research Council
Funding Amount
$567,725.00
Summary
Male babies born significantly premature are up to twice likely to die than females. The reasons for this are unknown. This study will determine the cardiovascular differences in male and female babies born preterm and will examine how they adapt over the first 5 days. Defining the mechanisms that contribute to the difference in mortality between the sexes will also show how changes starting around birth affect the way the blood pressure system functions for life, a major lifetime stroke risk.
Temporal And Spatial Regulation Of Caspases In Development And Metamorphosis
Funder
National Health and Medical Research Council
Funding Amount
$369,072.00
Summary
Cell death by a special process called apoptosis is a means of deleting unwanted and harmful cells from the body. Extensive apoptosis occurs during foetal development which is required to get rid of many excess cells produced during the growth of the embryo. Selective apoptosis is also essential for the formation of different tissues and organs in developing foetus. In the adult, apoptosis is required for proper functioning of the immune system, to remove virus infected and cancer cells and in g ....Cell death by a special process called apoptosis is a means of deleting unwanted and harmful cells from the body. Extensive apoptosis occurs during foetal development which is required to get rid of many excess cells produced during the growth of the embryo. Selective apoptosis is also essential for the formation of different tissues and organs in developing foetus. In the adult, apoptosis is required for proper functioning of the immune system, to remove virus infected and cancer cells and in general to maintain the correct number of cells in the body. As such, dysregulation of apoptosis is associated with the pathogenesis of a wide array of diseases such as autoimmune diseases, many forms of cancer and neurodegenerative disorders (such as Alzheimer's and Parkinson's diseases), heart disease, ischaemia and other conditions. To understand, manage and treat disorders that result from aberrant apoptosis, we need to know at molecular and cellular level, how apoptosis is brought about and how it is regulated. We have been studying these processes in detail for several years. Central to the apoptotic execution of cell death are a group of proteases that target many cellular proteins for specific cleavage. The activation of these proteases is the crucial step in the initiation of apoptosis and therefore each cell has developed complex ways to control this process. If we understand how these regulatory mechanisms operate, we can then formulate strategies that are targeted towards pathologies involving abnormal apoptosis. Various molecules that are involved in the execution and regulation of apoptosis are potentially excellent targets for therapeutic intervention in a number of disorders and will lead to the development of novel drugs for the treatment and prevention of many pathological conditions. In the present proposal, we aim to study what type of caspases are involved in sculpting of various organs and tissues during development.Read moreRead less
Cell death by a special process called apoptosis is a means of deleting unwanted and harmful cells from the body. Extensive apoptosis occurs during foetal development which is required to get rid of many excess cells produced during the growth of the embryo. Selective apoptosis is also essential for the formation of different tissues and organs in developing foetus. In the adult, apoptosis is required for proper functioning of the immune system, to remove virus infected and cancer cells and in g ....Cell death by a special process called apoptosis is a means of deleting unwanted and harmful cells from the body. Extensive apoptosis occurs during foetal development which is required to get rid of many excess cells produced during the growth of the embryo. Selective apoptosis is also essential for the formation of different tissues and organs in developing foetus. In the adult, apoptosis is required for proper functioning of the immune system, to remove virus infected and cancer cells and in general to maintain the correct number of cells in the body. As such, misregulation of apoptosis is associated with the pathogenesis of a wide array of diseases such as autoimmune diseases, many forms of cancer and neurodegenerative disorders (such as Alzheimer's and Parkinson's diseases), heart disease, ischaemia and other conditions. To understand, manage and treat disorders that result from aberrant apoptosis, we need to know at molecular and cellular level, how apoptosis is brought about and how it is regulated. We have been studying these processes in detail for several years. Central to the apoptotic execution of cell death are a group of proteases that target many cellular proteins for specific cleavage. The activation of these proteases is the crucial step in the initiation of apoptosis and therefore each cell has developed complex ways to control this process. If we understand how these regulatory mechanisms operate, we can then formulate strategies that are targeted towards pathologies involving abnormal apoptosis. Various molecules that are involved in the execution and regulation of apoptosis are potentially excellent targets for therapeutic intervention in a number of disorders and will lead to the development of novel drugs for the treatment and prevention of many pathological conditions.Read moreRead less
Temporal And Spatial Regulation Of Caspases In Development And Metamorphosis
Funder
National Health and Medical Research Council
Funding Amount
$473,250.00
Summary
Cell death by a special process called apoptosis is a means of deleting unwanted and harmful cells from the body. Extensive apoptosis occurs during foetal development which is required to get rid of many excess cells produced during the growth of the embryo. Selective apoptosis is also essential for the formation of different tissues and organs in developing foetus. In the adult, apoptosis is required for proper functioning of the immune system, to remove virus infected and cancer cells and in g ....Cell death by a special process called apoptosis is a means of deleting unwanted and harmful cells from the body. Extensive apoptosis occurs during foetal development which is required to get rid of many excess cells produced during the growth of the embryo. Selective apoptosis is also essential for the formation of different tissues and organs in developing foetus. In the adult, apoptosis is required for proper functioning of the immune system, to remove virus infected and cancer cells and in general to maintain the correct number of cells in the body. As such, misregulated apoptosis is associated with the pathogenesis of a wide array of diseases such as autoimmune diseases, many forms of cancer and neurodegenerative disorders (such as Alzheimer's and Parkinson's diseases), heart disease, ischaemia and other conditions. To understand, manage and treat disorders that result from aberrant apoptosis, we need to know at molecular and cellular level, how apoptosis is brought about and how it is regulated. We have been studying these processes in detail for several years. Central to the apoptotic execution of cell death are a group of proteases that target many cellular proteins for specific cleavage. The activation of these proteases is the crucial step in the initiation of apoptosis and therefore each cell has developed complex ways to control this process. In the present proposal, we aim to study regulation of caspases that are involved in developmental apoptosis. Furthermore, we plan to identify proteins that are responsible for the regulation of caspase activation.Read moreRead less
Salt And Cardiovascular Disease: Does Acute Salt-Sensitivity Convey Greater Cardiovascular Risk?
Funder
National Health and Medical Research Council
Funding Amount
$597,578.00
Summary
Salt intake of Australian adults is 10X more than required. Further, salt intake in very young children is alarmingly high secondary to high consumption of salty snacks and processed food. High dietary salt intake has been associated with increased cardiovascular disease and death. We will examine the cardiovascular risks for adults and children on a high salt diet and examine whether switching to a low salt diet ameliorates the high blood pressure and heart disease caused by high salt diets
Role Of AMP-activated Protein Kinase In Salt Excretion And Hypertension
Funder
National Health and Medical Research Council
Funding Amount
$133,351.00
Summary
High blood pressure is a significant health problem and may result from the kidneys not being able to get rid of salt properly. The mechanisms underlying this are unclear. I will investigate the role of a kidney protein, called AMPK, in salt excretion in mice. I will also look at the effects that diabetes and obesity have on the function of this protein. The overall aim is to improve the understanding of what causes high blood pressure which will ultimately aid the development of new treatments ....High blood pressure is a significant health problem and may result from the kidneys not being able to get rid of salt properly. The mechanisms underlying this are unclear. I will investigate the role of a kidney protein, called AMPK, in salt excretion in mice. I will also look at the effects that diabetes and obesity have on the function of this protein. The overall aim is to improve the understanding of what causes high blood pressure which will ultimately aid the development of new treatments for it.Read moreRead less
FUNCTIONAL IDENTIFICATION OF CORTICAL AND SUBCORTICAL SITES RESPONSIBLE FOR NEUROGENIC HYPERTENSION IN HUMANS
Funder
National Health and Medical Research Council
Funding Amount
$514,644.00
Summary
Blood pressure is normally maintained at a relatively constant level through reflexes involving the brainstem, but we have recently shown that higher areas of the brain are also involved in the regulation of blood pressure in humans. Here, we will use the novel methodologies we have developed to study functional and structural changes in the brain in patients with essential and renovascular hypertension.
Hypothalamic Regulation Of Cardiovascular Function In Hypertension And Stress
Funder
National Health and Medical Research Council
Funding Amount
$570,880.00
Summary
Blood pressure is controlled to a large extent by nerves, known as sympathetic nerves, that supply the heart and blood vessels. The activity of sympathetic nerves is commonly increased in people with high blood pressure, particularly younger patients. This has the effect of constricting blood vessels and increasing heart rate, which places an additional load on the heart, and increasing the risk of heart attacks and stroke. Sympathetic nerves are also activated strongly in response to stress. In ....Blood pressure is controlled to a large extent by nerves, known as sympathetic nerves, that supply the heart and blood vessels. The activity of sympathetic nerves is commonly increased in people with high blood pressure, particularly younger patients. This has the effect of constricting blood vessels and increasing heart rate, which places an additional load on the heart, and increasing the risk of heart attacks and stroke. Sympathetic nerves are also activated strongly in response to stress. In some people stress can trigger an extreme reaction, called a panic disorder, characterised by intense sympathetic activation, which also increases the risk of heart attacks. A region in the brain called the hypothalamus plays a key role in generating these increases in sympathetic nerve activity. This project aims first to identify the precise region or regions in the hypothalamus that are responsible for causing increased sympathetic activity in high blood pressure, and also in response to acute stress. There is also evidence from studies in humans that drugs which act on a particular type of receptor in the brain (called a serotonin receptor) can strongly inhibit the normal response to stress. We also aim to determine exactly where and how such drugs work. These studies may lead to much more effective treatments for high blood pressure and stress-related disorders.Read moreRead less