The Roles Of Beta-catenin, APC And The Wnt/beta-catenin Pathway In Lens Development And Cataract
Funder
National Health and Medical Research Council
Funding Amount
$456,764.00
Summary
Cataract is a leading cause of blindness. Many risk factors have been identified but the basic cellular and molecular mechanisms that cause cataract are not well understood. Investigation of these mechanisms is essential to identify potential targets for future therapies to arrest or prevent cataract formation. The lens is composed of epithelial and fibre cells. Much of our research has focussed on identifying genes and cell signalling pathways that regulate formation of fibre cells from the epi ....Cataract is a leading cause of blindness. Many risk factors have been identified but the basic cellular and molecular mechanisms that cause cataract are not well understood. Investigation of these mechanisms is essential to identify potential targets for future therapies to arrest or prevent cataract formation. The lens is composed of epithelial and fibre cells. Much of our research has focussed on identifying genes and cell signalling pathways that regulate formation of fibre cells from the epithelial cells. However, considerably less is known about factors that regulate formation of the epithelium itself. As the epithelial cells are affected in some types of cataract it is vitally important to understand the mechanisms that control formation and maintenance of these cells. Our previous studies have identified a growth factor family (TGF-beta) that causes epithelial cataracts. Importantly, our recent studies have identified another growth factor signalling pathway (Wnt-beta-catenin) as being essential for the formation and maintenance of the lens epithelium. We hypothesise that this pathway is disrupted dring cataract formation. This project uses state of the art tools and techniques to investigate the role of two central molecular components of this Wnt pathway (APC and beta-catenin) in the developing lens. By genetically manipulating the activity of these proteins in the mouse lens we will investigate the roles these molecules and the Wnt signalling pathway play in lens development and whether inappropriate activity results in abnormal development or cataract. We will also be able to investigate whether modulating this pathway affects the formation of epithelial cataracts by TGFbeta. The results will provide detailed information on how these molecules regulate lens structure and function and have the potential to identify targets for preventing or ameliorating cataracts.Read moreRead less
Regionalisation And Differentiation Of EPL-derived Neurectoderm: Directed Formation Of Dopaminergic Neurons In Vitro.
Funder
National Health and Medical Research Council
Funding Amount
$250,500.00
Summary
Neurodegenerative diseases result from the loss, damage or dysfunction of neural populations. For example, dopaminergic neurons are lost progressively in Parkinson's Disease. A potential method of treatment is 'cell therapy' which envisages transplantation of cells back to the site of cell loss, and restoration of function. Application of the cell therapy approach is limited by the unavailability of cells for transplantation. Embryonic stem (ES) cells provide a potential solution to this problem ....Neurodegenerative diseases result from the loss, damage or dysfunction of neural populations. For example, dopaminergic neurons are lost progressively in Parkinson's Disease. A potential method of treatment is 'cell therapy' which envisages transplantation of cells back to the site of cell loss, and restoration of function. Application of the cell therapy approach is limited by the unavailability of cells for transplantation. Embryonic stem (ES) cells provide a potential solution to this problem because they can be grown in unlimited numbers and differentiated to any kind of cell that is found in the embryo or adult. In this application we propose to continue our work on controlling the differentiation of ES cells to neural lineages. Production of dopaminergic neurons will be a particular focus. We will establish conditions that enable the production of these cells in a manner that is therapeutically relevant and predicted to be acceptable to regulatory authorities. Cells will be tested by transplantation into adult rats to assess their therapeutic potential, in particular persistence, integration and differentiation within the brain environment. Research required to achieve the production of transplantable cells will also provide basic information about the mechanisms by which the mammalian embryo allocates cells, specifically cells of the nervous system, to specific lineages during embryogenesis. This information will be important for the production of other neural cell types, which have therapeutic potential for treatment of diseases like stroke, motor neuron disease and spinal cord injury.Read moreRead less
Cellular And Molecular Regulation Of Fetal Ovarian Development
Funder
National Health and Medical Research Council
Funding Amount
$547,315.00
Summary
Normal development of the ovaries is critical for women's health and reproduction. Recent studies have shown that even the very earliest steps in ovarian development, occurring during fetal growth, can play a major part in predisposing to some of the most common and debilitating reproductive and endocrine disorders affecting Australian women. In this project we will take a systematic and comprehensive approach to exploring the mysteries of fetal ovary development, discovering what genes need to ....Normal development of the ovaries is critical for women's health and reproduction. Recent studies have shown that even the very earliest steps in ovarian development, occurring during fetal growth, can play a major part in predisposing to some of the most common and debilitating reproductive and endocrine disorders affecting Australian women. In this project we will take a systematic and comprehensive approach to exploring the mysteries of fetal ovary development, discovering what genes need to be activated and what cellular processes are required for normal ovary development and hence may play a part in ovarian diseases that manifest in later life. This work will offer new avenues for the prevention, diagnosis and treatment of ovarian disease and female infertility.Read moreRead less
Enrichment, Differentiation And Functional Analysis Of Growth Hormone Progenitor Cells From The Adult Mouse Pituitary
Funder
National Health and Medical Research Council
Funding Amount
$469,500.00
Summary
Many important bodily functions including growth, metabolism, onset of puberty, fertility, lactation and the ability to cope with stress are controlled by hormones secreted by the pituitary gland. Consequently, insufficient hormone production by the pituitary gland (hypopituitarism) results in life-threatening conditions which are a significant clinical problem. Growth Hormone (GH) deficiency is the most common form of pituitary hormone deficiency, affecting 1:3,500 individuals. Currently, GH de ....Many important bodily functions including growth, metabolism, onset of puberty, fertility, lactation and the ability to cope with stress are controlled by hormones secreted by the pituitary gland. Consequently, insufficient hormone production by the pituitary gland (hypopituitarism) results in life-threatening conditions which are a significant clinical problem. Growth Hormone (GH) deficiency is the most common form of pituitary hormone deficiency, affecting 1:3,500 individuals. Currently, GH deficiency is treated by daily injections of growth hormone at a cost of $30,000 to $50,000 per patient per annum. However, even with daily injections and despite the cost, it is difficult to mimic the naturally fluctuating hormone levels in the body, resulting in incomplete growth rescue. Long term injections also have severe side effects that can lead to cardiovascular problems, abnormal bone density, diabetes and cancers of various types. To overcome the disadvantages of hormone therapy we are investigating a new cell replacement therapy to treat GH deficiency. This approach requires knowledge about the mechanism by which GH-secreting cells are generated and maintained in the adult pituitary. For the first time, we have isolated a type of progenitor (unspecialised) cell from adult mouse pituitary that is capable of dividing and generating GH-secreting cells. Our current research aims to further purify these cells and to show that they are capable of secreting GH in response to biologically relevant signals. In addition, we will test whether these cells can grow and develop into functional cells when introduced into mice. In particular, we will test whether the progenitor cells can rescue dwarfism using a mouse model of GH deficiency. This pioneering study will provide the first insight into the possibility of cell therapy for the pituitary, and may ultimately lead to the development of better therapies for patients with GH deficiency.Read moreRead less
Role For Sphingosine Kinase-1 In Endothelial Progenitor Cell Survival And Differentiation.
Funder
National Health and Medical Research Council
Funding Amount
$294,205.00
Summary
Lay description: Collectively, diseases of the vascular system contribute immensely to the burden of health care in Australia. Notably, abnormal blood vessel formation and function (angiogenesis) has been identified as a major cause or contributor to the vascular complications associated with inflammation, cancer, rheumatoid arthritis and diabetes. Endothelial cells are one of the principle cells of blood vessels forming a barrier between the blood and tissues. This project aims to understand th ....Lay description: Collectively, diseases of the vascular system contribute immensely to the burden of health care in Australia. Notably, abnormal blood vessel formation and function (angiogenesis) has been identified as a major cause or contributor to the vascular complications associated with inflammation, cancer, rheumatoid arthritis and diabetes. Endothelial cells are one of the principle cells of blood vessels forming a barrier between the blood and tissues. This project aims to understand the process whereby mature endothelial cells are formed and how replacement of damaged endothelial cells is normally achieved. Stem cell therapy is considered the new frontier for the treatment of many diseases. Understanding how endothelial progenitor cells differentiate to mature endothelial cells and the signals which operate inside the cell may allow therapeutic manipulation of key target moecules in order to limit or control inflammation, tumourigenesis, rheumatoid arthritis and diabetic retinopathy. Our results suggest that one target maybe the enzyme sphingosine kinase.Read moreRead less
Differentiation Therapy Of Acute Myeloid Leukaemia: Combining RAR-agonists And G-CSF.
Funder
National Health and Medical Research Council
Funding Amount
$449,500.00
Summary
The application of cancer treatments that target specific molecules hold significant promise. However to apply these treatments detailed knowledge is required of the how the molecular targets function in cells. Our previous work using normal blood cells has identified two genes ( MAD1 and p27KIP1 ) that are required for the effects of one such targeted treatment that is aimed at the retinoic acid receptor alpha. We propose to test this treatment in mouse models of human leukaemia and in human le ....The application of cancer treatments that target specific molecules hold significant promise. However to apply these treatments detailed knowledge is required of the how the molecular targets function in cells. Our previous work using normal blood cells has identified two genes ( MAD1 and p27KIP1 ) that are required for the effects of one such targeted treatment that is aimed at the retinoic acid receptor alpha. We propose to test this treatment in mouse models of human leukaemia and in human leukemia cells grown in the laboratory. By deleting the genes for MAD1 and p27KIP1 we will determine if leukaemias lacking these genes fail to respond to treatments targeting the retinoic acid receptor alpha. We will also test if treatments that target retinoic acid receptors in combination with G-CSF, a protein that has previously been demonstrated to have anti-leukaemic activity, can work together to block growth of leukaemic and genetically modified cells. Together these studies will help define classes of leukamias that either will or will not respond to treatments aimed at retinoic acid receptor to better target future leukemia treatments.Read moreRead less
Mechanisms Of Premature Cranial Fusion: Role Of Retinol Binding Protein 4 In Osteogenesis And Suture Fusion
Funder
National Health and Medical Research Council
Funding Amount
$555,855.00
Summary
Craniosynostosis is a condition where the skull bones fuse prematurely, affecting skull shape, vision and cognition. It occurs in 1 in 2,500 births. The only treatment is surgery, which is life-threatening, costly and may need to be repeated. By studying how fusion happens in this project we may be able to devise therapies to minimize the risks and need for re-operation. Here, we hope to show that modification of a single substance in the skull of mouse models can prevent premature bone fusion.
Stem cell to differentiation occurs in a bi-directional fashion. Dedifferentiation which allows specialized cells to become stem cells has been found to be important in both cancer and regeneration. In this proposal, we will investigate the metabolic reprogramming of neuronal dedifferentiation. The findings from this study will better inform us on how to specifically target tumours that arise from dedifferentiation.