Targeted Development Of AMPK Β2-isoform Allosteric Activators
Funder
National Health and Medical Research Council
Funding Amount
$898,147.00
Summary
Sedentary lifestyles and consumption of high energy foods has led to dramatic increases in the incidence of diseases associated with metabolic dysregulation e.g. type 2 diabetes. An attractive drug target to treat these diseases is AMP-activated protein kinase (AMPK) which functions as a cellular fuel gauge. We have discovered a new drug that crucially activates the form of AMPK found in metabolically active organs. We aim to develop this drug to unlock new therapeutic opportunity.
Global genetic regulation of carbon metabolism in filamentous fungi. Fungi are of great importance in medicine, agriculture and industry. They are used extensively for food, antibiotic and chemical production and, increasingly, for generating cheap substrates for bioethanol. However many are serious pathogens of plants and humans. Understanding how fungi control their metabolism is of fundamental importance for their more effective use or control. This project takes advantage of a fungus that is ....Global genetic regulation of carbon metabolism in filamentous fungi. Fungi are of great importance in medicine, agriculture and industry. They are used extensively for food, antibiotic and chemical production and, increasingly, for generating cheap substrates for bioethanol. However many are serious pathogens of plants and humans. Understanding how fungi control their metabolism is of fundamental importance for their more effective use or control. This project takes advantage of a fungus that is easily studied in the laboratory by advanced genetic techniques to identify the ways in which genes are turned on and off in response to changes in the nutrients available. By comparing DNA sequences the results are readily applied to fungi of economic importance.Read moreRead less
Molecular Genetic Analysis of Genes Regulating Metabolism in the Fungus Aspergillus nidulans. Filamentous fungi can use a wide variety of sources of carbon and nitrogen. In order to grow on these compounds metabolism is adjusted in response to changes in nutrient availability. Patterns of genome expression are altered by signalling to global regulatory genes which control the transcription of genes producing enzymes appropriate to the substrates available. This is of fundamental significance to ....Molecular Genetic Analysis of Genes Regulating Metabolism in the Fungus Aspergillus nidulans. Filamentous fungi can use a wide variety of sources of carbon and nitrogen. In order to grow on these compounds metabolism is adjusted in response to changes in nutrient availability. Patterns of genome expression are altered by signalling to global regulatory genes which control the transcription of genes producing enzymes appropriate to the substrates available. This is of fundamental significance to the physiology and development of fungi which include devastating pathogens and species used in industrial microbiology. This project aims to use the excellent molecular genetics of the model fungus Aspergillus nidulans to investigate the strategies employed and the mechanisms involved.Read moreRead less
Metabolic Stress Sensing By AMPK: Implications For Energy Balance And Isoform-targetting Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$632,188.00
Summary
Metabolic diseases such as obesity, type 2 diabetes and cardiovascular disease impose enormous medical and economic burdens on Western societies. Our research is focussed on the enzyme AMP-activated protein kinase (AMPK) which acts as the fuel gauge of the cell and is a promising drug target for combating metabolic diseases. Our discoveries provide critical insight on how AMPK is switched on by both energy demand and drugs, and will greatly assist development of AMPK-targetted therapeutics.
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
Plant Genes Conferring Resistance to Ultraviolet Radiation. Ultraviolet (UV) radiation induces DNA damage that can decrease plant growth and productivity. Our aim is to begin deciphering the mechanisms responsible for the UV resistance phenotype in plants by: 1) isolating genes that control processing of UV-induced DNA damage; 2) determining the influence of UV on gene activity; and 3) elucidating the functions and essential interactions of the gene products. The results of this study will help ....Plant Genes Conferring Resistance to Ultraviolet Radiation. Ultraviolet (UV) radiation induces DNA damage that can decrease plant growth and productivity. Our aim is to begin deciphering the mechanisms responsible for the UV resistance phenotype in plants by: 1) isolating genes that control processing of UV-induced DNA damage; 2) determining the influence of UV on gene activity; and 3) elucidating the functions and essential interactions of the gene products. The results of this study will help us understand how these genes operate to produce the UV resistance phenotype. This new knowledge will facilitate eventual engineering of plants to increase agricultural productivity by enhancing resistance to solar UV radiation.Read moreRead less
The function of the ribbon structure of the Golgi apparatus in vertebrates. The aim of the project is to determine the function of the Golgi ribbon structure in higher order cell functions, including metabolism, cell cycle, and cell polarity in both cultured cells and whole organisms. Understanding of the functions of the Golgi has been restricted to the regulation of glycosylation and membrane transport. However, it is now recognised that the Golgi apparatus feeds into the wiring of a range of ....The function of the ribbon structure of the Golgi apparatus in vertebrates. The aim of the project is to determine the function of the Golgi ribbon structure in higher order cell functions, including metabolism, cell cycle, and cell polarity in both cultured cells and whole organisms. Understanding of the functions of the Golgi has been restricted to the regulation of glycosylation and membrane transport. However, it is now recognised that the Golgi apparatus feeds into the wiring of a range of cellular networks in higher organisms such as cell polarisation, directed migration, metabolism and autophagy. Vertebrates have evolved mechanisms for joining individual Golgi stacks into a ribbon structure. The relevance of this ribbon structure remains a mystery. The project aims to answer this major question in cell biology.Read moreRead less
The selective elimination of mitochondria from yeast cells: regulation and molecular mechanism . For healthy cells the quality of the mitochondrion, the cellular power plant, must be maintained. The results of this research will contribute to an understanding of the molecular mechanism for the removal of mitochondria from the cell, and ultimately inspire strategies for the treatment of diseases that result from faulty mitochondria.
Structure and Function of the AMP-activated protein kinase. The AMP-activated protein kinase (AMPK) is a member of the metabolic stress sensing protein kinase subfamily that is present in all eukaryotes, including the yeast homologue, snf1p protein kinase essential for adapting to growth without glucose. The AMPK plays an important role in matching metabolism to nutrient supply and energy demand of perhaps all physiological processes. The aim of this project is to understand the structure and ....Structure and Function of the AMP-activated protein kinase. The AMP-activated protein kinase (AMPK) is a member of the metabolic stress sensing protein kinase subfamily that is present in all eukaryotes, including the yeast homologue, snf1p protein kinase essential for adapting to growth without glucose. The AMPK plays an important role in matching metabolism to nutrient supply and energy demand of perhaps all physiological processes. The aim of this project is to understand the structure and function of the AMPK. This work may provide important opportunities for drug design, understanding the impact of metabolism and ageing as well as increasing our knowledge of signalling pathways that control cellular events.Read moreRead less
Coordinating energy metabolism to enhance exercise capacity. Diet and exercise contribute to health and ageing productively whereas high caloric diets and sedentary life styles are deleterious. The enzyme AMPK regulates energy metabolism in response to diet and exercise and by studying it we expect to learn why diet and exercise are beneficial at the molecular level. This may allow the development of nutritional, exercise and drug strategies to enhance exercise capacity and well being during ....Coordinating energy metabolism to enhance exercise capacity. Diet and exercise contribute to health and ageing productively whereas high caloric diets and sedentary life styles are deleterious. The enzyme AMPK regulates energy metabolism in response to diet and exercise and by studying it we expect to learn why diet and exercise are beneficial at the molecular level. This may allow the development of nutritional, exercise and drug strategies to enhance exercise capacity and well being during ageing as well as suppress age onset diseases that include obesity diabetes cardiovascular disease hypertension and neurodegeneration.Read moreRead less