Molecular And Cellular Basis For Muscle Regeneration In Zebrafish.
Funder
National Health and Medical Research Council
Funding Amount
$541,104.00
Summary
Muscle repair occurs via the use of muscle stem cells, which provide skeletal muscle with its regenerative capacity. Muscle stem cells are particularly important in muscle diseases such as muscular dystrophies where muscle regeneration is an important factor in disease progression. We will identify the processes controlling muscle regeneration utilising zebrafish as a model organism. We hope this research will lead to an understanding of how muscle stem cells are generated.
The Role Of Scube Genes In Hedgehog Signal Transduction
Funder
National Health and Medical Research Council
Funding Amount
$496,446.00
Summary
Cancer often results form the miss-regulation and-or mutation of genes that control tissue formation in the developing embryo. Particular sets of genes combine to form a signal transduction pathway that coordinates the cell's response to its environment during the course of normal fetal growth. One such pathway is called the Hedgehog signal transduction pathway which has been shown to coordinated cell division and patterning within malignant and normal tissues. Genes encoding components of this ....Cancer often results form the miss-regulation and-or mutation of genes that control tissue formation in the developing embryo. Particular sets of genes combine to form a signal transduction pathway that coordinates the cell's response to its environment during the course of normal fetal growth. One such pathway is called the Hedgehog signal transduction pathway which has been shown to coordinated cell division and patterning within malignant and normal tissues. Genes encoding components of this pathway are mutated in the most common forms of human cancers. Understanding how this pathway is regulated is critical to designing strategies to treat the onset and progression of these cancers. The studies outlined in this grant plan to study a new component of this pathway that we have identified in our laboratory, in an easy to study vertebrate model, the zebrafish embryo. We plan to study how this class of proteins, termed scube proteins, acts to control activation of the pathway. We hope this will lead to a fuller understanding of this process, and at the same time help understand the nature of the end result of the patterning process within the muscle cells that we are studyingRead moreRead less
The Polycomb Ezh2 Methyltransferase Regulates Satellite Cell Self-renewal
Funder
National Health and Medical Research Council
Funding Amount
$333,769.00
Summary
Skeletal muscle regeneration following injury is a tightly regulated process and any disturbance to this process, such as that which occurs with the muscular dystrophies, can greatly impair a muscle's ability to regenerate. The aim of this project is to better understand the mechanisms that control muscle regeneration, and open up new avenues for potential treatment strategies in conditions where muscle wasting and weakness are indicated.
The Role Of Growth Factors In Pluripotency And Differentiation Of Human Embryonic Stem Cells Towards Human Therapy
Funder
National Health and Medical Research Council
Funding Amount
$380,829.00
Summary
Human stem cells, obtained and studied within strict ethical guidelines, have huge potential for increasing our understanding of early human development and for transplantation therapy. In order to realise this potential the factors that maintain these cells as stem cells (able to divide indefinitely and to become any cell type) and which turn them into particular cell types must be understood. This project aims to study these factors and to apply stem cells to muscle disease therapy.
Maintenance of skeletal muscle integrity is critical for normal locomotor function. During adulthood skeletal muscle mass and strength is progressively lost which leads to locomotor impairment common in the elderly. Loss of skeletal muscle may also contribute to functional impairment in patients with inherited disorders of the scaffolding connective tissue that hold muscle fibres together, such as Duchenne's dystrophy. Understanding the biology of muscle cell growth and responses to environmenta ....Maintenance of skeletal muscle integrity is critical for normal locomotor function. During adulthood skeletal muscle mass and strength is progressively lost which leads to locomotor impairment common in the elderly. Loss of skeletal muscle may also contribute to functional impairment in patients with inherited disorders of the scaffolding connective tissue that hold muscle fibres together, such as Duchenne's dystrophy. Understanding the biology of muscle cell growth and responses to environmental stresses such as exercise and ageing is, therefore, critical to healthy daily functioning. In preliminary studies we have defined a novel biochemical pathway which we believe underlies the ability of muscle to grow larger and stronger. In this application, we propose to rigorously evaluate the role of this pathway in muscle growth by experiments performed both with cell culture models and in animals. The findings of this study would have direct therapeutic benefit for a large number of major clinical conditions, such as heart failure, age-related muscular weakness and muscle diseases.Read moreRead less