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.
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
Analysis Of T Cell Fate Regulation By Asymmetric Cell Division
Funder
National Health and Medical Research Council
Funding Amount
$287,321.00
Summary
The aim of this research is to study how white blood cell growth is regulated by signals of the immune system. Problems in this process can have drastic effects on the well being of an individual leading to deficiencies in controlling infection and development of diseases such as cancer. Once we understand how these signals regulate white blood cell growth, we can begin to develop therapies to provide protection against these diseases.
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
Deciphering The Epigenetic Code Of T Lymphocyte Stability In Disease
Funder
National Health and Medical Research Council
Funding Amount
$662,785.00
Summary
T lymphocytes defend against invading pathogens and establish immunological memory to protect us if the infection returns. As there are many different types of pathogens, T lymphocytes must be flexible in the way they respond to infection but also stable once they have decided on the appropriate type of response. This complex decision-making appears to be dictated by epigenetic changes to the chromatin state of the cell. This work will uncover epigenetic factors that maintain this balance to pro ....T lymphocytes defend against invading pathogens and establish immunological memory to protect us if the infection returns. As there are many different types of pathogens, T lymphocytes must be flexible in the way they respond to infection but also stable once they have decided on the appropriate type of response. This complex decision-making appears to be dictated by epigenetic changes to the chromatin state of the cell. This work will uncover epigenetic factors that maintain this balance to protect us against disease.Read moreRead less