AMPK Control Of Lipid Metabolism: Role In Regulating Energy Balance And Insulin Sensitivity
Funder
National Health and Medical Research Council
Funding Amount
$614,437.00
Summary
The control of appetite and maintenance of a lean body mass along with exercise is important for protecting the body against obesity and increased incidence of Type 2 diabetes and cardiovascular disease. We are investigating how the regulation of lipid metabolism controls appetite and body weight and the extent to which these same controls are important for drugs acting to lower blood lipid levels.
Mammalian cells have developed a complex signalling network responsible for monitoring and responding to changes in the levels of growth factors and the availability of nutrients, energy and oxygen in their environment. Deregulation of this network often results in uncontrolled cell growth and diseases including cardiac hypertrophy and cancer. This proposal aims to understand how this network controls cell growth and identify potential targets for diseases driven by uncontrolled growth.
Mechanisms controlling enteroendocrine hormone secretion in human duodenum. This project aims to gain a deeper understanding of nutrient sensing pathways present in enteroendocrine cells within the human intestine. These cells control digestive function, blood glucose levels and food intake and are thus critical to digestion. This project will endeavour to be the first to assess the biology of human enteroendocrine cells and will use innovative approaches to deeply assess function from the level ....Mechanisms controlling enteroendocrine hormone secretion in human duodenum. This project aims to gain a deeper understanding of nutrient sensing pathways present in enteroendocrine cells within the human intestine. These cells control digestive function, blood glucose levels and food intake and are thus critical to digestion. This project will endeavour to be the first to assess the biology of human enteroendocrine cells and will use innovative approaches to deeply assess function from the level of the individual to isolated enteroendocrine cells.Read moreRead less
Exploring the gene regulation networks governing mitochondrial biogenesis in Arabidopsis. Mitochondria, subcellular organelles that perform many functions indispensable to plant growth and productivity, are dynamic compartments whose protein complement changes dramatically during plant development and under stress. Yet, the cellular processes that regulate the production of these organelles are virtually unknown. By combining conventional approaches with an extremely powerful holistic method for ....Exploring the gene regulation networks governing mitochondrial biogenesis in Arabidopsis. Mitochondria, subcellular organelles that perform many functions indispensable to plant growth and productivity, are dynamic compartments whose protein complement changes dramatically during plant development and under stress. Yet, the cellular processes that regulate the production of these organelles are virtually unknown. By combining conventional approaches with an extremely powerful holistic method for simultaneously examining the expression patterns of every gene in the model plant Arabidopsis, this project will identify proteins that regulate mitochondrial biosynthesis and uncover the gene networks that these proteins control. The project outcomes will provide new opportunities for the rational manipulation of plant growth and productivity.Read moreRead less
Ciliary Neurotrophic Factor: A Novel Theraputic Agent For The Prevention Of Muscle Insulin Resistance
Funder
National Health and Medical Research Council
Funding Amount
$602,673.00
Summary
In 1995 leptin was discovered and scientists world-wide hoped that this was the great panacea in the treatment of obesity related disorders. Alas, from 1995-1997 the identification of a novel cytokine inducible compound termed suppressor of cytokine signaling (SOCS) that negatively regulated leptin signalling and lead to leptin resistance, quashing hopes for a viable anti-obesogenic drug. Recently, however, work from our group has demonstrated that the neuropoietic cytokine, ciliary neurotrophic ....In 1995 leptin was discovered and scientists world-wide hoped that this was the great panacea in the treatment of obesity related disorders. Alas, from 1995-1997 the identification of a novel cytokine inducible compound termed suppressor of cytokine signaling (SOCS) that negatively regulated leptin signalling and lead to leptin resistance, quashing hopes for a viable anti-obesogenic drug. Recently, however, work from our group has demonstrated that the neuropoietic cytokine, ciliary neurotrophic factor (CNTF), can act in an anti-obesogenic fashion in a manner similar to leptin. However, unlike leptin, when we place rodents on a high fat diet, the effects of CNTF persist and override induction SOCS proteins. This project will examine the biochemical pathways that allow the actions of CNTF to persist in the presence of diet-induced obesity. This is of major significance because in completing this work, the potential for the development of peripheral tissue drug targets for the treatment of obesity related diseases are both tangible and realistic.Read moreRead less
Role Of FoxO Proteins In The Regulation Of Skeletal Muscle Anabolism, Catabolism And Insulin Sensitivity
Funder
National Health and Medical Research Council
Funding Amount
$503,426.00
Summary
Loss of muscle tissue or muscle wasting is a hallmark of many common health problems including diabetes, cancer, Cushing's syndrome, sepsis, HIV-Aids and renal failure. In the past 2-3 years important progress has been made in understanding the molecular regulation of both catabolism (muscle wasting) and anabolism (muscle growth) within mammalian skeletal muscles. It has been known for some time that a certain family of transcription factors, known as FoxO proteins, activate catabolic pathways. ....Loss of muscle tissue or muscle wasting is a hallmark of many common health problems including diabetes, cancer, Cushing's syndrome, sepsis, HIV-Aids and renal failure. In the past 2-3 years important progress has been made in understanding the molecular regulation of both catabolism (muscle wasting) and anabolism (muscle growth) within mammalian skeletal muscles. It has been known for some time that a certain family of transcription factors, known as FoxO proteins, activate catabolic pathways. However, recently, we have shown that FoxO proteins also cause muscle wasting by blocking anabolic pathways. Our new data heighten the importance of targeting FoxO proteins are therapeutics for human diseases where muscle tissue wasting occurs. This proposal will investigate methods that will allow for blocking the action of FoxO proteins in the hope that muscle wasting can be prevented.Read moreRead less
Genome Approaches to Investigate Metabolic Coordination in Plant Cells. Metabolism of C and N in legume nodules requires interaction between the symbiotic bacteria and plant organelles, particularly metabolism in plastids and mitochondria. Fixed N is assimilated through the de novo synthesis of purines in both plastids and mitochondria. However, each of the nine pathway enzymes is encoded by a single gene, indicating each protein is targeted to both organelles. Purine metabolism will provide ....Genome Approaches to Investigate Metabolic Coordination in Plant Cells. Metabolism of C and N in legume nodules requires interaction between the symbiotic bacteria and plant organelles, particularly metabolism in plastids and mitochondria. Fixed N is assimilated through the de novo synthesis of purines in both plastids and mitochondria. However, each of the nine pathway enzymes is encoded by a single gene, indicating each protein is targeted to both organelles. Purine metabolism will provide a model to assess the more general occurrence of dual-targeted proteins in plants. The aim is to identify and eventually exploit the signalling mechanism(s) that mediate communication between plastids and mitochondria.Read moreRead less
Yeast cell-cell communication of overcrowding and nutrient limitation: novel signalling systems and their impact on fermentation. The project will investigate known and novel signalling molecules that allow communication between yeast cells and impact on fermentation dynamics, specifically in a nutrient-depleted environment. The mechanisms by which these molecules exert their effect will be defined using a systems biology approach that integrates many analyses and data sets.
Autophagic vacuole formation in mammalian skeletal muscle; role of FOXO proteins. Loss of muscle tissue is a hallmark of many common health problems including cancer, HIV-Aids and renal failure. Recently, we identified that a family of transcription factors termed the forkhead box class-O (FOXO) winged helix transcription factors are key regulators of both anabolic (building) and catabolic (wasting) signalling pathways. This project will investigate the molecular regulation of cell integrity by ....Autophagic vacuole formation in mammalian skeletal muscle; role of FOXO proteins. Loss of muscle tissue is a hallmark of many common health problems including cancer, HIV-Aids and renal failure. Recently, we identified that a family of transcription factors termed the forkhead box class-O (FOXO) winged helix transcription factors are key regulators of both anabolic (building) and catabolic (wasting) signalling pathways. This project will investigate the molecular regulation of cell integrity by FOXO proteins. Although very basic in nature, these projects will identify how FOXO proteins regulate muscle cell building and wasting and, therefore, present a potential therapeutic target for muscle wasting diseases, making this project highly significant.Read moreRead less
The Role Of Protein Kinase C Epsilon In The Generation Of Lipid-Induced Insulin Resistance In Skeletal Muscle
Funder
National Health and Medical Research Council
Funding Amount
$474,750.00
Summary
Insulin normally reduces blood sugar levels by increasing glucose uptake and storage in certain tissues, especially muscle. Type 2 diabetes is characterized by a failure of these tissues to respond adequately to insulin. This loss of sensitivity to the hormone is known as insulin resistance, and has been strongly linked to increases in the availability of fat, although the reasons for this are not clear. Certain fat molecules are able to cause the activation of pathways within cells which can in ....Insulin normally reduces blood sugar levels by increasing glucose uptake and storage in certain tissues, especially muscle. Type 2 diabetes is characterized by a failure of these tissues to respond adequately to insulin. This loss of sensitivity to the hormone is known as insulin resistance, and has been strongly linked to increases in the availability of fat, although the reasons for this are not clear. Certain fat molecules are able to cause the activation of pathways within cells which can interfere with the normal signalling of insulin. We have recently found that mice lacking an enzyme thought to be involved in such negative pathways are less susceptible to insulin resistance caused by high-fat feeding. The aim of this project is to investigate the mechanism by which this enzyme contributes to inhibition of insulin action. We will determine the step in normal insulin signalling which is blocked by the activation of the enzyme upon increased fat supply. This will help us to determine the pathway leading from the enzyme to insulin signalling. We will also identify the particular form of fat which leads to activation of the enzyme. This work will lead to a better understanding of the mechanisms by which fats can play a role in the generation of insulin resistance, so that they can be targeted both for the development of new and more effective treatments for the disorder and for prevention of its onset.Read moreRead less