Novel Interplay Of Oestrogen And Growth Hormone In Regulating Lipid Metabolism
Funder
National Health and Medical Research Council
Funding Amount
$673,045.00
Summary
These studies provide insights into the mechanisms and role of oestrogen in regulating whole body and liver fat metabolism. Oestrogen-related medications that modify the action or tissue availability of oestrogen are widely used therapeutics and can predispose to obesity and fat accumulation in the liver. Whether the effect is direct or through interplay with other metabolic hormones is unknown. This proposal examines their metabolic consequences and impact on obesity and liver health.
The Chief Investigators have worked as a team for 20 years as part of a successful NHMRC Program Grant that was renewed on three successive occasions and subsequently under a NHMRC Block Grant to QIMR. Their combined expertise covers the whole spectrum from the bedside to the bench with respect to clinical studies and fundamental molecular studies of iron homeostasis. The common theme of iron homeostasis and iron overload pervades virtually all the research of the team. The team�s research has l ....The Chief Investigators have worked as a team for 20 years as part of a successful NHMRC Program Grant that was renewed on three successive occasions and subsequently under a NHMRC Block Grant to QIMR. Their combined expertise covers the whole spectrum from the bedside to the bench with respect to clinical studies and fundamental molecular studies of iron homeostasis. The common theme of iron homeostasis and iron overload pervades virtually all the research of the team. The team�s research has led to fundamental observations of iron regulation and homeostasis and the development of guidelines for the management of, and screening for, haemochromatosis, recognized as the most common inherited disorder of Caucasian populations. The proposed research encompasses molecular studies aimed at deciphering the mechanisms of iron absorption and transport; how these processes are regulated; and clinical studies on patients diagnosed with haemochromatosis. The findings are particularly pertinent to the diagnosis, management and prevention of clinical haemochromatosis.Read moreRead less
The Role Of The Glutamine Transporter SNAT3 In Ion Transport, Cell Signaling And Ammonia Detoxification
Funder
National Health and Medical Research Council
Funding Amount
$393,249.00
Summary
Hepatic encephalopathy is a syndrome observed in patients with liver cirrhosis and is caused by increased amounts of ammonia in the blood. The proposed project investigates a transporter that is involved in ammonia and glutamine metabolism in liver and brain. The two organs are critical to the pathology of liver failure and ammonia toxicity resulting from reduced liver function. The transporter thus could become a drug target for a variety of liver diseases.
The Role Of Circadian Rhythm Genes In The Regulation Of Energy Balance And Substrate Metabolism In Muscle And Liver
Funder
National Health and Medical Research Council
Funding Amount
$349,263.00
Summary
Obesity is increasing at an alarming rate worldwide and as the standard of living increases in developing countries such as India and China, the incidence of obesity and its related diseases of diabetes, cardiovascular disease and cancer will become the major health problem of the 21st century. The epidemic of obesity appears to be due to a complex interaction between genetic background and changes in the environment such as reduced physical activity and increased availability and consumption of ....Obesity is increasing at an alarming rate worldwide and as the standard of living increases in developing countries such as India and China, the incidence of obesity and its related diseases of diabetes, cardiovascular disease and cancer will become the major health problem of the 21st century. The epidemic of obesity appears to be due to a complex interaction between genetic background and changes in the environment such as reduced physical activity and increased availability and consumption of high energy food. The accumulation of excess body fat in most individuals is not a precipitous event that occurs over a few days or weeks. Obesity actually occurs insidiously over a period years and is essentially the cumulative result of small differences in daily energy balance. In humans and animals energy balance is subject to diurnal or day-night variations in body temperature, feeding behaviour and physical activity (sleep-wake cycles). Recent research has determined that all tissues in the body have the same genes that regulate circadian (daily) rhythms in the brain. It has also become clear that the expression of these gene cycles over 24 hours in muscle liver and fat tissue the same way that they do in the brain. What is not understood is the extent to which these circadian genes control energy metabolism pathways such as glucose and fat utilisation and storage in liver and muscle. The aim of this grant is to test the effects of changing diet, feeding times and circulating hormones on metabolism and gene expression in muscle and liver to determine the extent to which circadian rhythm genes regulate the normal diurnal metabolism of glucose and fat and whether dysregulation of these systems contributes to metabolic disease.Read moreRead less