Factors Controlling Lipid Accumulation In Non-adipose Tissues
Funder
National Health and Medical Research Council
Funding Amount
$463,500.00
Summary
The fat cells of the body are designed to store excess fuel for use when supply from the diet is low, or in situations like exercise, demand is high. Fat also accumulates to some extent in the cells of other tissues types, but in some people the accumulation is excessive. This can have a number of serious effects. In the liver and muscle it can interfere with the ability of insulin to properly regulate the amount of glucose present in the blood, contributing to the development of diabetes. In th ....The fat cells of the body are designed to store excess fuel for use when supply from the diet is low, or in situations like exercise, demand is high. Fat also accumulates to some extent in the cells of other tissues types, but in some people the accumulation is excessive. This can have a number of serious effects. In the liver and muscle it can interfere with the ability of insulin to properly regulate the amount of glucose present in the blood, contributing to the development of diabetes. In the liver, fat accumulation can also lead to cirrhosis and liver failure. Cardiovascular complications, resulting in premature death, are also likely. However despite these devastating consequences it is not clear what the underlying cause of the over-accumulation of fat is not known. In this project we will investigate in detail several aspects of fat metabolism that we think are important in controlling how tissues take up fat from the circulation and whether it is subsequently stored or burnt for energy. We will study the amount of fat that is taken up by different tissues of the body under a range of conditions including fed, and short- and long-term fasting. We will also use drugs to inhibit or promote the amount of fat that is burnt, to see if this changes the rate at which fat is taken up by different tissues. In addition we will accelerate, by genetic manipulation, the rate at which some key enzymes of fat metabolism are produced, to determine their effect on the amount of fat that is stored by different tissue types. Our aim is to determine the metabolic processes that influence fat accumulation in those adversely affected tissues such as liver, heart and skeletal muscle. The identification of the most important processes will contribute significantly to the targeting of therapies aimed at preventing excess fat accumulation and its associated diseases.Read moreRead less
Atherosclerosis: Lipoproteins, Cell Biology And Vascular Physiology
Funder
National Health and Medical Research Council
Funding Amount
$10,461,682.00
Summary
The world is confronting a major new epidemic of premature heart disease that is being driven by a global increase in obesity. There are several factors that contribute to the increased risk of heart disease in overweight and obese people. One is a low blood level of the “good” HDL cholesterol that normally protects against heart disease. Another relates to a decreased ability to remove cholesterol from the walls of arteries where it builds up to cause heart disease. A third is the fact that obe ....The world is confronting a major new epidemic of premature heart disease that is being driven by a global increase in obesity. There are several factors that contribute to the increased risk of heart disease in overweight and obese people. One is a low blood level of the “good” HDL cholesterol that normally protects against heart disease. Another relates to a decreased ability to remove cholesterol from the walls of arteries where it builds up to cause heart disease. A third is the fact that obesity is associated with a state of chronic inflammation of the blood vessels. This inflammation not only accelerates the development of heart disease but also makes people who have cholesterol accumulated in their arteries more likely to actually have a heart attack. And a fourth is the fact that the lining of blood vessels does not function normally in overweight and obese people. This loss of normal function is a very early sign of future heart disease. These factors are closely inter-related, with the “good” HDL playing a central role in removing cholesterol from arteries, inhibiting arterial inflammation and promoting normal function and repair of the lining of blood vessels. HDL is complex, consisting of a mixture of several subpopulations of particles that vary in shape, size and composition. Furthermore, these HDL subpopulations are continually remodelled as they circulate in blood in reactions promoted by a number of blood factors that change their size and composition. A major component of the research to be conducted in this program relates to understanding how the HDL subpopulations in human blood are regulated and how they protect against heart disease. The applicants have already made major contributions to understanding the functions of the “good” HDLs, how they take cholesterol out of cells in the artery wall, how they inhibit inflammation of the arteries and how they improve the function of the artery lining. We propose to extend these studies to establish how these protective functions can be enhanced, to find out which of the HDL subpopulations are most protective, and to identify how to increase the most protective HDLs in people at risk of heart disease.Read moreRead less