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Neural Versus Humoral Activation Of The Sympathetic Nervous System In Renal Disease
Funder
National Health and Medical Research Council
Funding Amount
$293,567.00
Summary
In the healthy body, the kidney and the sympathetic nervous system work together to keep our blood pressure in the normal range, both in the short and long term. When people have kidney disease, this system fails and people can develop high blood pressure. High blood pressure can lead to heart attack and stroke, and so is a serious complication for people who already have kidney disease. It has previously been believed that major factors in this process are fluid retention and a circulating horm ....In the healthy body, the kidney and the sympathetic nervous system work together to keep our blood pressure in the normal range, both in the short and long term. When people have kidney disease, this system fails and people can develop high blood pressure. High blood pressure can lead to heart attack and stroke, and so is a serious complication for people who already have kidney disease. It has previously been believed that major factors in this process are fluid retention and a circulating hormone called angiotensin II, but we believe that the sympathetic nervous system is also very important. Further, we believe that sensory nerves in the kidney tell the brain something is wrong in the kidney, making the sympathetic nervous system increase blood pressure inappropriately. We will examine the relative role of the sensory nerves and the hormone angiotensin II in driving the sympathetic nervous system to increase blood pressure, using three different rat models of kidney disease. One of these models is a new rat model of polycystic kidney disease, which is the fourth most important cause of renal disease in Australia. We want to determine what parts of the brain are important in the pathway, and will also test treatments that block the two different pathways (nerves vs. hormones) to see what is the most effective way of controlling not only blood pressure but also slowing down the progression of kidney and heart disease. This work is important as it will not only help us understand how the brain and kidney communicate with each other, but will also have the potential to improve quality of treatment for people with kidney diseaseRead moreRead less
Understanding The Origins Of Neurogenic Hypertension
Funder
National Health and Medical Research Council
Funding Amount
$668,914.00
Summary
Brain cells that control the cardiovascular system are thought to have stopped dividing by adulthood. We recently discovered that this is not the case. Our initial findings suggest that these nascent cells might be important for maintaining normal blood pressure. This work will allow us to elucidate the function of these nascent cells and how they integrate into the circuit that controls the cardiovascular system. Our findings will be fundamental for understanding diseases such as hypertension.
This project aims to discover the nervous pathways and mechanisms in the brain that control body temperature. We hope to identify the nerve cells in the brain that detect increases in the core temperature of the body and determine the nervous pathways that project from them to increase blood flow to the skin when we become hot. This research may lead to a better understanding of heat exhaustion which is especially dangerous to the elderly.
Vasomotor Ganglionic Transmission: The Preganglionic Peptide And The Second Gear
Funder
National Health and Medical Research Council
Funding Amount
$451,896.00
Summary
Blood pressure depends on nerve signals that travel from the central nervous system to blood vessels. In the middle of this pathway is a relay station - the sympathetic ganglion cell. Transmission through this relay station has recently been shown to have not only a fixed but also a variable component - the 'second gear'. The project tests if and how three likely candidate peptide molecules, one in the nerves, two in the bloodstream, control this 'second gear' and hence regulate blood pressure.