Investigating The Formation And Utility Of The Prenatal Platelet Forming System
Funder
National Health and Medical Research Council
Funding Amount
$793,442.00
Summary
A major challenge to regenerative medicine is discovering how to produce useful cell types in the laboratory. Particularly urgent is the need to generate large numbers of platelets, the building blocks of the clotting system, for clinical use. Current laboratory methods are woefully inefficient, thus cannot meet demand. This project aims to discover how platelets are made in nature. With this information we will be able to devise better platelet production strategies in the laboratory.
Understanding The Ancestry Of De Novo Blood Formation In The Early Embryo
Funder
National Health and Medical Research Council
Funding Amount
$484,666.00
Summary
Current laboratory methods rely on a hit-or-miss approach for the production of such cells, making the prospect of producing patient-specific cells an inefficient/financially prohibitive process. This project aims to generate new knowledge into when and how fate of early blood cells in selected in nature. With this information we will be able to devise effective blood progenitor cell production strategies in the laboratory.
Dysfunctional blood vessel growth is an important mechanism of many congenital vascular diseases and other postnatal diseases such as ischemia and cancer. Cerebral cavernous malformations (CCMs) are common vascular disease in brain that cause strokes and seizures in midlife. Due to their location in the brain, CCMs are virtually untreatable, making the development of novel therapies a priority. This proposal aims to understand how the molecular players underlying this brain vascular disease cont ....Dysfunctional blood vessel growth is an important mechanism of many congenital vascular diseases and other postnatal diseases such as ischemia and cancer. Cerebral cavernous malformations (CCMs) are common vascular disease in brain that cause strokes and seizures in midlife. Due to their location in the brain, CCMs are virtually untreatable, making the development of novel therapies a priority. This proposal aims to understand how the molecular players underlying this brain vascular disease control blood vessel function and growth.Read moreRead less
Reducing Morbidities In Preterm Growth Restricted Neonates.
Funder
National Health and Medical Research Council
Funding Amount
$687,214.00
Summary
Intrauterine growth restriction (IUGR) is a serious complication of pregnancy and occurs when fetal growth is abnormal, resulting in a fetus that is smaller than it should be for its given gestational age. IUGR babies are at much greater risk of many short and long-term adverse outcomes. This study investigates the role that adverse cardiovascular development plays in the progression of lung, heart and brain disease in preterm IUGR newborns.
A Novel Genetic Element Controlling Adult Hemoglobin Production
Funder
National Health and Medical Research Council
Funding Amount
$493,907.00
Summary
Disorders of the blood protein hemoglobin are the commonest genetic diseases worldwide, and include thalassemia and sickle cell disease. In this proposal we study two novel mouse lines that exhibit thalassemia, but lack any of the known genetic mutations that cause this disease. These mice afford us the opportunity to make unique observations into how hemoglobin is produced, and thereby provide a platform for new therapeutic approaches in these devastating diseases of the blood.
Testing A Combination Of 2 Clinical Drugs, An IAP Inhibitor And P38 Inhibitor, To Treat AML
Funder
National Health and Medical Research Council
Funding Amount
$200,890.00
Summary
Current treatments only cure 50% of Acute Myeloid Leukaemia (AML) patients, and novel approaches to treatment are desperately needed to improve survival of patients with leukaemia. One new drug, Birinapant, is currently being tested in clinical trials to treat AML. I have found that some AMLs are resistant to Birinapant treatment but the addition of a second drug (called “p38 inhibitors”) can now overcome this resistance. I will test how effective combining these two drugs can be to treat AML.
Endocytosis And Asymmetric Cell Division In Leukemia.
Funder
National Health and Medical Research Council
Funding Amount
$548,258.00
Summary
Self-renewal allows normal haematopoeitic stem cells to constantly replenish the blood system. Conversely, leukemia stem cells use self-renewal to propagate the disease, and utilise the quiescence phase to evade treatment eradication. We identified that the endocytic gene, Ap2a2 enhances haematopoeitic stem cell self-renewal. Through Ap2a2, we are now investigating the role of endocytosis and self-renewal in leukemia and ex vivo expansion of human haematopoietic stem cells.
Bone Marrow Endothelial Stem Cells Have The Capacity To Form Both The Endothelial And Haemopoietic Hierarchies
Funder
National Health and Medical Research Council
Funding Amount
$1,452,856.00
Summary
Blood cell formation is hierarchically organised; with hemopoietic stem cells (HSC) responsible for producing mature circulating blood cells. HSC reside in marrow near blood vessel cells. Although these play a key role in HSC regulation their origin in adults is poorly understood. We have demonstrated the existence of adult marrow vessel stem cells at the apex of a parallel hierarchy. Our objective is to characterise these in mice and humans and determine their role in blood malignancies.
RZR-alpha In The Control Of Proliferative Vascular Disease
Funder
National Health and Medical Research Council
Funding Amount
$521,706.00
Summary
Four million Australians have cardiovascular disease accounting for 35% of all deaths. CVD is the most expensive disease burden and a National Health Priority. Smooth muscle cell growth is a cause of CVD. However, the mechanisms controlling SMC hyperplasia are poorly understood. This project will provide key insights on the role of RZR-alpha in the pathogenesis of blood vessel disease, and develop novel gene-targeting approaches for new opportunities to control complications of CVD.
Defining The Role Of Nedd4 In Neural Crest Cell Development
Funder
National Health and Medical Research Council
Funding Amount
$541,565.00
Summary
Neural crest cells are specialised stem cells that give rise to many tissues and organs during embryonic development. We recently identified an essential role for a regulatory protein in neural crest cells. Our research is aimed at understanding how this protein influences the growth of structures such as the heart and facial skeleton. Understanding these processes underpins the ultimate goal of implementing diagnostic and preventative medicine for highly prevalent congenital birth defects.