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The AMP-activated protein kinase (AMPK) is a metabolic stress-sensing enzyme responsible for matching energy supply to energy demand by the many different cells in our bodies. AMPK is active in the heart, where it may control cardiac function and the response of the heart to disease. It has been difficult to study AMPK in the heart because we lack drugs that block the actions of AMPK. This study will investigate the role of AMPK in the heart using a genetic approach whereby the AMPK enzyme is re ....The AMP-activated protein kinase (AMPK) is a metabolic stress-sensing enzyme responsible for matching energy supply to energy demand by the many different cells in our bodies. AMPK is active in the heart, where it may control cardiac function and the response of the heart to disease. It has been difficult to study AMPK in the heart because we lack drugs that block the actions of AMPK. This study will investigate the role of AMPK in the heart using a genetic approach whereby the AMPK enzyme is rendered inactive (a gene knockout approach). By this approach we will learn how AMPK controls heart function and how drugs that affect AMPK may impact on the heart.Read moreRead less
Physiological Effects Of Manipulating AMP-activated Kinase Genes
Funder
National Health and Medical Research Council
Funding Amount
$351,110.00
Summary
The AMP-activated protein kinase is a metabolic stress sensing protein kinase responsible for matching the supply of energy to the body's functions. During vigorous exercise it senses metabolic stress (reduction in energy) caused by muscle contraction and stimulates glucose uptake and burning of fat to provide energy. The AMP-activated protein kinase also regulates the production of nitric oxide that is important in controlling blood pressure and blood clotting. Reduced caloric intake activates ....The AMP-activated protein kinase is a metabolic stress sensing protein kinase responsible for matching the supply of energy to the body's functions. During vigorous exercise it senses metabolic stress (reduction in energy) caused by muscle contraction and stimulates glucose uptake and burning of fat to provide energy. The AMP-activated protein kinase also regulates the production of nitric oxide that is important in controlling blood pressure and blood clotting. Reduced caloric intake activates the AMP-activated protein kinase to suppress energy consuming activities and modify the expression of genes. Many of the conditions that activate the AMP-activated protein kinase (exercise, reduced caloric intake) are associated with a healthy life style, increased longevity and resistance to age onset diseases including cardiovascular disease (atherosclerosis, hypertension), obesity, neurodegeneration and diabetes. By manipulating the gene for the AMP-activated protein kinase in mice we expect to learn more about its key physiological roles and give new insight into the control of age onset diseases.Read moreRead less
Physiological Effects Of Manipulating AMPK Signalling Genes
Funder
National Health and Medical Research Council
Funding Amount
$377,250.00
Summary
The AMP activated protein kinase is a metabolic stress sensing protein kinase responsible for matching the supply of energy to the body's functions. During exercise it senses metabolic stress (reduction in energy) caused by muscle contraction and switches on metabolic processes to restore energy. This includes stimulating glucose uptake and burning fat. With training the AMP activated protein kinase also controls genes to adapt the body to future exercise. Reducing caloric intake activates the A ....The AMP activated protein kinase is a metabolic stress sensing protein kinase responsible for matching the supply of energy to the body's functions. During exercise it senses metabolic stress (reduction in energy) caused by muscle contraction and switches on metabolic processes to restore energy. This includes stimulating glucose uptake and burning fat. With training the AMP activated protein kinase also controls genes to adapt the body to future exercise. Reducing caloric intake activates the AMP activated protein kinase to suppress energy consuming activities and modify the expression of genes. This enzyme is a powerful regulator of lipid metabolism, inhibiting both cholesterol and triglyceride synthesis. Many conditions that activate the AMP activated protein kinase (exercise, reduced caloric intake) are associated with a healthy lifestyle, increased longevity and resistance to age onset diseases including cardiovascular disease (atherosclerosis, hypertension), obesity, neurodegeneration and diabetes. It has been found that metformin and rosiglitizone, major drugs used to treat people with type II diabetes activate the AMP activated protein kinase. By manipulating the genes for the AMP-activated protein kinase in mice we expect to gain new insights into the physiological roles of this enzyme and how it functions to protect the body from age onset diseases.Read moreRead less
Regulation Of Protein Kinases And Their Substrates
Funder
National Health and Medical Research Council
Funding Amount
$582,000.00
Summary
Western communities are experiencing an obesity epidemic with up to half the population being overweight. Sedentary life styles and high caloric intake are the cause and will contribute to the development of age onset diseases including obesity, diabetes, cardiovascular disease, stroke and neurodegeneration. This project is investigating an enzyme that plays a pivotal role in controlling the body s response to exercise and diet. The key enzyme involved in this process is called the AMP-activated ....Western communities are experiencing an obesity epidemic with up to half the population being overweight. Sedentary life styles and high caloric intake are the cause and will contribute to the development of age onset diseases including obesity, diabetes, cardiovascular disease, stroke and neurodegeneration. This project is investigating an enzyme that plays a pivotal role in controlling the body s response to exercise and diet. The key enzyme involved in this process is called the AMP-activated protein kinase. This work will increase our understanding of the health benefits of diet and exercise. This new knowledge will play a vital role in developing new therapies for promoting exercise and mitigating the effects of diet that will improve health during the ageing process.Read moreRead less
Assembly Of Mitochondrial Respiratory Chain Complexes And Defects Associated With Disease
Funder
National Health and Medical Research Council
Funding Amount
$464,610.00
Summary
A group of protein assemblies termed respiratory complexes are found in the inner membrane of mitochondria in our cells and are responsible for producing most of our energy. These complexes consist of many different protein subunits and are built by the help of numerous known and unknown assembly factors. For example, assembly of Complex I of the respiratory chain requires 39 different proteins that are made outside mitochondria and are then transported inside to be somehow joined together with ....A group of protein assemblies termed respiratory complexes are found in the inner membrane of mitochondria in our cells and are responsible for producing most of our energy. These complexes consist of many different protein subunits and are built by the help of numerous known and unknown assembly factors. For example, assembly of Complex I of the respiratory chain requires 39 different proteins that are made outside mitochondria and are then transported inside to be somehow joined together with the 7 other subunits that are made by mitochondria. This is clearly a complicated procedure and we have little information on how its assembly is achieved. We do know however that mistakes in the assembly of these complexes (particularly Complex I) do happen. In Australia, about 50 children born each year have inherited disorders of mitochondrial energy generation. The most severe disorders cause infant death, while others present later causing a range of degenerative diseases, particularly affecting brain, muscle and heart. Defects in the respiratory chain have also been implicated in Parkinson's disease, Alzheimer's disease, type-2 diabetes and in cell death. In order to understand how respiratory complex defects cause disease, we need to understand more about how these complexes are built. The aim of this proposal is to investigate how Complex I is assembled, how it interacts with other respiratory complexes, and to identify and characterise proteins that aid in its assembly. We will also analyse assembly defects in cells from patients with suspected respiratory complex deficiencies. This work will aid in our understanding of not only how protein complexes are built, but how defects in their assembly can cause disease. This will be informative to families of affected individuals and may aid in future diagnosis and prevention of diseases where defects in mitochondria are implicated.Read moreRead less
How well people perform in everyday situations is often determined by memory function. When required to perform under stress memory performance is often affected. The effect of a psychological stress test on memory function in healthy volunteers and the ability of a dietary supplement, tyrosine, to prevent the effects will be studied. The data may suggest that depletion amino acids is responsible for the decrements in performance that are evident after an acute stressor.
Liver Cell Transplantation For The Treatment Of Liver Based Metabolic Diseases.
Funder
National Health and Medical Research Council
Funding Amount
$444,143.00
Summary
We propose to investigate the role of liver cell transplantation (LCT) for the therapy of inherited liver-based metabolic diseases using a methylmalonic aciduria (MMA) mouse model. LCT provides an exciting alternative to whole organ transplantation. Initially it was considered liver cells would be immunopriviledged. This has not proven to be the case. Immune modulation will be important. We will also examine immune modulation using antibodies to optimise longterm survival of allogeneic cells.
Central Control Of Stress-induced Changes In Immune Function.
Funder
National Health and Medical Research Council
Funding Amount
$411,724.00
Summary
LONG-TERM STRESS CAN ALTER OUR BRAIN'S ATTEMPTS TO FIGHT INFECTION Long-term stress is often blamed for causing illness but precisely how this occurs is now only beginning to be realised. It is especially disturbing that long-term stress can increase one's susceptibility to infections. Stress can alter the way our brain can help deal with assaults by bacteria and viruses. Normally, at the start of an infection, we release a hormone called cortisol from our adrenal glands. A low level of cortisol ....LONG-TERM STRESS CAN ALTER OUR BRAIN'S ATTEMPTS TO FIGHT INFECTION Long-term stress is often blamed for causing illness but precisely how this occurs is now only beginning to be realised. It is especially disturbing that long-term stress can increase one's susceptibility to infections. Stress can alter the way our brain can help deal with assaults by bacteria and viruses. Normally, at the start of an infection, we release a hormone called cortisol from our adrenal glands. A low level of cortisol in our body is beneficial because it can prevent the infection from taking hold in our body and spreading. However if we are chronically stressed our brains tell the adrenal glands to secrete excessive amounts of cortisol over long periods of time and this imbalance can actually hinder the ability of one's immune system to fight an infection. The unfortunate consequence is that the infection is more likely to win the battle and spread to cause further havoc. The present study will identify which areas of the brain are important in driving the secretion of cortisol during infection and how long-term stress can influence those areas. Because we might be exposed to long-term psychological stress that is repeated regularly or irregularly we will determine which pattern of stress has the greatest effect. An investigation into how the brain operates during long-term stress and infection will help us develop ways to prevent stress from disrupting our immune systems.Read moreRead less
Chronic or extreme reactions to stress can lead to pathological conditions such as long term anxiety states, depression and panic disorders. Stress related disease also contributes to other major health problems such as heart disease and disorders of the immune system. These disease states include some of the major medical problems of our times. This proposal is to define genes which may be involved in stress responsiveness, to further understand and treat stress related disease.