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Dementias affect a large number of Australians each year with the number of patients expected to triple by 2050. As such, there is need to develop a better model of this debilitating disorder to provide improved treatments. Mesenchymal stem cells, are relatively easy to obtain and grow, and are able to produce the key cell types in the brain. We can use these cells to identify the processes that control the production of brain cells, which will likely provide better treatment of this disease.
Defining A New Player In Atherosclerosis: The Role Of Adventitial Haemangioblasts As An Outside-in Driver Of Plaque Growth And Stability.
Funder
National Health and Medical Research Council
Funding Amount
$728,005.00
Summary
As the underlying cause of heart attack, atherosclerosis is a leading cause of death worldwide. New approaches to treatment are desperately needed and this requires a better understanding of how atherosclerotic plaques form in arteries. This project studies a new population of stem cells that we have discovered in the outer layer of arteries, to determine how they cause plaques to form, so that we can develop new therapies that target these stem cells to more effectively treat atherosclerosis.
Characterising The Function Of Niche-derived Neuregulin 1 In Colorectal Cancer
Funder
National Health and Medical Research Council
Funding Amount
$994,246.00
Summary
Colorectal cancer affects thousands of Australians each year. A specialised cell population, named cancer stem cells, continuously produces new tumour cells. Defining mechanisms controlling the behaviour of these unique cells is critical to develop new drugs. We have identified that Neuregulin-1 is a key factor that enhances the action of cancer stem cells. We aim to study how colorectal cancer is mediated and whether targeting Neuregulin-1 is a promising therapeutic option.
Using Stem Cells And Bioengineered Scaffolds To Promote Regeneration Following Necrotic Brain Injury
Funder
National Health and Medical Research Council
Funding Amount
$710,857.00
Summary
A number of injuries, including stroke, result in tissue loss. Consequently promoting repair will require restoration of tissue structure, replacement cells and a supportive environment to promote integration of these new cells. This study will engineer and develop novel scaffolds that can replace tissue whilst additionally providing physical and chemical support for newly implanted stem cells. This work will be conducted in an animal model of stroke.
Cell Trafficking In A Stem Cell Model For Hereditary Spastic Paraplegia
Funder
National Health and Medical Research Council
Funding Amount
$524,082.00
Summary
Hereditary Spastic Paraplegia (HSP) is a genetic disease passed down in affected families. It is a slowly progressing lower limb paralysis that gradually restricts daily activities until the sufferer is confined to bed. There are no cures. This project investigates patientsÍ stem cells to study how HSP genes cause disease. We will use these stem cells to discover new potential drug therapies.
Standardising Protocols For The Differentiation And Integration Of Human Pluripotent Stem Cell-derived Neural Transplants In Parkinson's Disease
Funder
National Health and Medical Research Council
Funding Amount
$987,664.00
Summary
Clinical trials have shown that transplanting dopamine neurons (specific nerve cells) into the brain of Parkinson’s disease patients can improve symptoms. Trials use fetal tissue for implantation, which is unsustainable and highly variable. This proposal will examine stem cells as an alternative. We will establish a reliable protocol to instruct human stem cells to become dopamine neurons, develop methods to select these cells and, examine the integration of these transplanted cells in the brain
A Simple Method To Improve Stem Cell Transplant Therapy
Funder
National Health and Medical Research Council
Funding Amount
$831,652.00
Summary
Despite the success of hematopoietic stem cell transplantation and years of promise, almost all other stem cell therapies are considered experimental and remain in preclinical or early-phase clinical testing. This study aims to improve the efficiency of stem cell transplantation by manipulating cellular metabolism prior to transplantation, if effective these results may offer hope to patients suffering from a broad range of disorders.