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Modulation Of Cell Phospholipids And Membranes By 7-ketocholesterol And Their Role In Cholesterol Efflux.
Funder
National Health and Medical Research Council
Funding Amount
$186,372.00
Summary
Atherosclerosis is a leading cause of death in Australia. The disease is caused by the formation of large deposits of cholesterol in the walls of major blood vessels. This cholesterol comes from cholesterol-carrying particles in the blood which penetrate into the tissue of the blood vessel. They are taken up by the cells of the tissue which become engorged with large amounts of cholesterol and are called 'foam cells'. These foam cells also contain a small but signficant amount of damaged (oxidis ....Atherosclerosis is a leading cause of death in Australia. The disease is caused by the formation of large deposits of cholesterol in the walls of major blood vessels. This cholesterol comes from cholesterol-carrying particles in the blood which penetrate into the tissue of the blood vessel. They are taken up by the cells of the tissue which become engorged with large amounts of cholesterol and are called 'foam cells'. These foam cells also contain a small but signficant amount of damaged (oxidised) forms of cholesterol, called oxysterols. We have found than an oxysterol called 7-ketocholesterol makes it difficult for cells to get rid of excess cholesterol. Therefore this oxysterol may be part of the reason why foam cells develop. This project will study how 7-ketocholesterol blocks cholesterol removal from cells. This may lead to the development of drugs which remove or prevent 7-ketcholesterol accumulation in the blood vessel and so prevent or reverse atherosclerosis.Read moreRead less
Ras Signalling And Cholesterol Efflux From Late Endosomes
Funder
National Health and Medical Research Council
Funding Amount
$276,598.00
Summary
Accumulation of cholesterol is a hallmark of early atherosclerotic lesions, known as foam cell formation. Hence the stimulation of cholesterol removal (efflux) from macrophages has great therapeutic potential. High Density Lipoproteins (HDL) and apolipoprotein A-I (apoA-I) stimulate efflux via activation of HDL-apoA-I receptors and poorly understood signalling pathways. This application is investigating the role of the Ras-MAPK signalling pathway in promoting efflux from late endosomes.
Characterising An Important Control Point In Cholesterol Synthesis Beyond HMG-CoA Reductase
Funder
National Health and Medical Research Council
Funding Amount
$480,739.00
Summary
The statins are the ‘go-to’ drugs for treating heart disease; blocking a very early, highly-controlled step in the pathway producing cholesterol. However, they inhibit the production of other vital molecules which explains why some patients do not tolerate them. We have identified that a later enzyme in this pathway is also highly controlled and here aim to characterise the molecular mechanisms involved. This work could translate into the development of even safer drugs for treating cholesterol- ....The statins are the ‘go-to’ drugs for treating heart disease; blocking a very early, highly-controlled step in the pathway producing cholesterol. However, they inhibit the production of other vital molecules which explains why some patients do not tolerate them. We have identified that a later enzyme in this pathway is also highly controlled and here aim to characterise the molecular mechanisms involved. This work could translate into the development of even safer drugs for treating cholesterol-related diseases.Read moreRead less
Our goal is to discover new mechanisms involved in our cells’ delicate balancing act with respect to cholesterol levels. Understanding how production of cholesterol is controlled in our cells is key to developing new drugs aimed at preventing its excessive accumulation. This will have long-term benefits for health considering that a cellular imbalance in cholesterol is involved in two of the most common conditions threatening the health of Australians, namely heart disease and Alzheimer’s diseas ....Our goal is to discover new mechanisms involved in our cells’ delicate balancing act with respect to cholesterol levels. Understanding how production of cholesterol is controlled in our cells is key to developing new drugs aimed at preventing its excessive accumulation. This will have long-term benefits for health considering that a cellular imbalance in cholesterol is involved in two of the most common conditions threatening the health of Australians, namely heart disease and Alzheimer’s disease.Read moreRead less