The Role Of The Adiponectin Receptors In Liver Fibrosis
Funder
National Health and Medical Research Council
Funding Amount
$393,159.00
Summary
Advanced liver scarring (fibrosis) contributes to the death of 1500 Australians annually. Two-thirds of our community is overweight or obese, and this worsens liver disease. A protein secreted by fat, adiponectin, may be important as it acts on liver cells to promote fibrosis. To understand adiponectins role, we will use mice null for adiponectin receptor genes and study its action on liver cells. This study will improve our understanding of liver scarring biology and patient treatments.
Molecular Characterisation Of Adiponectin Receptors: Implications For Adiponectin Action And Resistance
Funder
National Health and Medical Research Council
Funding Amount
$95,137.00
Summary
Adiponectin is a hormone secreted by fat cells with anti-inflammatory, anti-atherogenic and insulin sensitising properties. Adiponectin levels and actions are compromised in obesity and type 2 diabetes. Adponectin mediates its effects via two receptors but the mechanisms are poorly understood. This proposal aims to define the underlying mechanisms with the ultimate goal of identifying novel therapeutic strategies to improve adiponectin's actions.
Adiponectin And Cholesterol: A Driving Force In NASH Immunopathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$436,017.00
Summary
This project examined the role of dietary cholesterol in the pathogenesis of fatty liver disease in a rodent model. We have been able to demonstrate that diets high in cholesterol lead to the development of inflammatory foci in the liver, elevations in the amount of hepatic ceramides (a lipid byproduct) and then leads to the activation of inflammatory molecular pathwways that lead to liver fibrosis. The latter results in end stage liver disease, and in some to the development of liver cancer.
Overweight individuals have an increased risk for developing liver cancer. This may be due to the reduced production of the fat-derived hormone adiponectin. Reduced levels of adiponectin are associated with increased inflammation and liver disease. Using mice not expressing adiponectin we will test its importance in liver cancer growth. The proposed research will provide a better understanding of the factors that promote liver cancer formation.
Characterisation Of The Adiponectin Receptors - AdipoR1 And AdipoR2
Funder
National Health and Medical Research Council
Funding Amount
$445,158.00
Summary
The increasing incidence of cardiometabolic disease highlights an unmet need for novel therapeutic approaches. Greater understanding of the detail governing cardiometabolic function is required to provide a foundation to construct effective strategies. We will characterise 2 novel receptors that are important in the regulation and maintenance of cardiometabolic systems, seeking to identify strategies to enhance receptor, improve cardiometabolic function and reduce disease burden.
Adiponectin: Key Factors Determining Its Metabolic Actions And Influences On Insulin Sensitivity
Funder
National Health and Medical Research Council
Funding Amount
$604,793.00
Summary
Diabetes and obesity are growing at alarming rates due to poor lifestyle and other factors. Adiponectin is a complex molecule secreted by fat tissue that may help to burn fat in other tissues such as muscle and liver. We investigate what are the main determinants of adiponectin action and how these might counteract defective insulin action caused by excessive fat intake. This promises to provide new therapeutic targets to lessen the metabolic derangement associated with diabetes and obesity
Molecular Characteristation Of The Adiponectin Receptors, AdipoR1 And AdipoR2: Identifying Strategies To Enhance Adiponectin Sensitivity And Reduce Cardiometabolic Disease.
Funder
National Health and Medical Research Council
Funding Amount
$334,634.00
Summary
Obesity and Type 2 diabetes (T2D) increase risk of cardiovascular disease (CVD), a leading cause of death in Australia. New drugs are required to reduce the health risks and financial burden of these diseases. Targeting hormone receptors to reduce fat storage in liver and skeletal muscle in obesity may improve insulin sensitivity and reduce blood sugar levels and therefore reduce CVD risk. This research will study how these receptors function in order to develop new drugs to reduce CVD risk.
MECHANISMS OF DISORDERED HEPATIC LIPID PARTITIONING IN NON-ALCOHOLIC STEATOHEPATITIS
Funder
National Health and Medical Research Council
Funding Amount
$449,591.00
Summary
Fatty liver is the commonest form of liver disease. It is strongly associated with obesity and maturity onset diabetes. The majority of cases of fatty liver disease cause no complications, but when inflammation and liver damage also occur, in the condition of non-alcoholic steatohepatitis or NASH, liver scarring and eventually cirrhosis or liver cancer can result. The reason why some people with fatty liver disease develop NASH and others do not (benign or simple steatosis) is unknown and is the ....Fatty liver is the commonest form of liver disease. It is strongly associated with obesity and maturity onset diabetes. The majority of cases of fatty liver disease cause no complications, but when inflammation and liver damage also occur, in the condition of non-alcoholic steatohepatitis or NASH, liver scarring and eventually cirrhosis or liver cancer can result. The reason why some people with fatty liver disease develop NASH and others do not (benign or simple steatosis) is unknown and is the subject of this research. The studies will be performed in a novel mouse model of obesity and diabetes, the fat aussie mouse, in which all animals develop fatty liver disease after a few months. When fat aussie mice are fed a Macdonald's diet [high in saturated fat] they develop full-blown NASH with liver scarring. Before NASH develops in fat aussie mice, blood levels of adiponectin (a protein produced from fat storage cells) fall. Together with high blood insulin and high blood sugar levels, it is proposed that these changes are what leads to an extraordinarily high build up of fat (lipid) molecules in the liver, to the extent that the fat ultimately damages the liver in a process called lipotoxicity. The planned research will first test whether this hypothesis is correct, and then set about ways to prevent or reverse such a dangerous build up of fats in the liver. Strategies include a high olive oil diet (which is protective in another model of steatohepatitis), correction of blood adiponectin levels, lowering of insulin and blood sugar levels. The anticipated results are a much better understanding of how complications come about in fatty liver disease, and therefore insights into how this disorder can be prevented or reversed in those who are predisposed.Read moreRead less