Understanding how the brain grows and is organised is one of the great challenges of science. This project seeks to identify key regulators of neural progenitors as these are the building blocks from which all brains cells are derived. This knowledge may also identify new avenues through which to manipulate neural progenitor function. This has implications not only for normal brain development but also potential therapies for neural disorders and disease.
Promoting Intestinal Stem-cell Mediated Regeneration Following Damage: A Critical Role For Neuregulin 1
Funder
National Health and Medical Research Council
Funding Amount
$648,447.00
Summary
Diseases, infections and pathologies are common clinical problems of the intestine in humans that can lead to loss of intestinal tissue. Individuals with these conditions can experience nutritional problems and severe cases result in death. Promoting regeneration of the damaged tissue is critical to re-establish intestinal function. In this study, we will examine the regenerative potential of a growth factor called Neuregulin1 in the intestine with the aim of facilitating tissue regeneration.
Functional Characterisation Of Long Spliced NcRNAs
Funder
National Health and Medical Research Council
Funding Amount
$649,230.00
Summary
Genome sequencing projects suggest we only have approximately thirty thousand coding genes which was previously considered to be far too few to provide the blueprint for generation of human complexity. More surprising was the discovery that 3-5% of the genome is transcribed but not translated into protein. The function of these non-coding RNAs is unknown but hotly debated. Is it junk? Or does it play a new key role in programming development? This grant will address this question directly.
Epigenetic And Functional Decline Of Intestinal Stem Cells During Aging
Funder
National Health and Medical Research Council
Funding Amount
$584,390.00
Summary
Age related changes have been shown to impact on the overall functional properties of the intestinal epithelium, which affects overall nutrition and quality of life in the aged population. This proposal will study the cellular and molecular mechanisms underlying intestine deterioration during aging.
The Role Of Raptor And Rictor Signalling Pathways In Osteogenesis And Mesenchymal Stem Cell Fate Determination
Funder
National Health and Medical Research Council
Funding Amount
$562,742.00
Summary
Skeletal diseases associated with excessive bone loss and skeletal fragility, such as osteoporosis, affect 2.2 million Australians and cost our health system approximately $7.4 billion per annum. Studies from our laboratory suggest a critical role for the mTOR signalling pathway in bone development. Using transgenic animals and state-of-the-art techniques, we will investigate the role of mTOR in pre- and post-natal skeletal development. Results from these studies may provide novel approaches to ....Skeletal diseases associated with excessive bone loss and skeletal fragility, such as osteoporosis, affect 2.2 million Australians and cost our health system approximately $7.4 billion per annum. Studies from our laboratory suggest a critical role for the mTOR signalling pathway in bone development. Using transgenic animals and state-of-the-art techniques, we will investigate the role of mTOR in pre- and post-natal skeletal development. Results from these studies may provide novel approaches to treat age-related bone loss syndromes.Read moreRead less
Dissecting The Embryonic Blood-endothelial Regulatory Code And Investigating Its Role In Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$646,389.00
Summary
Cancer initiating cells acquire stem cell characteristics and multiply within a supportive environment that helps maintain and propagate malignant cells. Identifying the normal hierarchy of gene control within blood stem cells and designing therapies that target cancer cells is the ultimate goal of this body of work.
De-differentiation Of Committed Cells Into Haematopoietic Stem Cells By The Instructive Role Of The Transcription Factor HOXB4
Funder
National Health and Medical Research Council
Funding Amount
$683,040.00
Summary
Blood stem cells are long-lived and can give rise to every cell type of the blood system and due to these properties they are currently used in the clinics. Despite their importance, our knowledge of the mechanisms the control the multiplication of these rare cells is very scarce. This proposal aims to identify key factors that have the potential to convert mature, easy available blood cells into stem cells. This knowledge has to potential to lead to novel system that allow the expansion of stem ....Blood stem cells are long-lived and can give rise to every cell type of the blood system and due to these properties they are currently used in the clinics. Despite their importance, our knowledge of the mechanisms the control the multiplication of these rare cells is very scarce. This proposal aims to identify key factors that have the potential to convert mature, easy available blood cells into stem cells. This knowledge has to potential to lead to novel system that allow the expansion of stem cells for transplantations in the future.Read moreRead less
Making Human T- And B-lymphocytes For Immunotherapy And Antibody Production
Funder
National Health and Medical Research Council
Funding Amount
$795,880.00
Summary
Lymphocytes are white blood cells that are involved in producing antibodies, killing defective cells, or killing cells infected with viruses. In recent years, researchers have found ways to harness lymphocytes to develop medicines for treating a variety of different cancers. In this project, we will establish methods to make human lymphocytes in the laboratory from stem cells, paving the way for the broader application of this cell type to new therapies.