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.
Blood clotting in the wrong place at the wrong time is responsible for up to 50% of the morbidity and mortality of the population through diseases such as heart attack, stroke, venous thrombosis. It also contributes to cancer progression and cancer related death. Blood clotting is initiated when a protein on the cell surface known as tissue factor becomes active. We will determine how activation of tissue factor participates in the blood clotting process. This will help in disease prevention.
Microenvironmental Regulation Of Blood Cells By Retinoic Acid Receptor Gamma.
Funder
National Health and Medical Research Council
Funding Amount
$958,428.00
Summary
Vitamin A deficiency causes profound effects in humans, with anaemia and an inability to fight infection being consequences of vitamin A deficiency on blood cells. We have evidence that these effects of vitamin A deficiency occur via one of the receptors for vitamin A. Furthermore, these effects are due to changes in the non-blood cells that help to make blood cells. By understanding how this occurs we may identify better treatments for patients with impaired immune systems.
Characterization Of HOXA-expressing Human Haematopoietic Cells Generated From Embryonic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$622,464.00
Summary
Blood stem cell transplants are used for treating a range of human blood disorders such as leukaemias. However, for many patients, suitable donors cannot be found. We are searching for ways in which embryonic stem cells can be turned into blood stem cells in the laboratory to provide a new source of these cells that could then be used to treat patients.
Production Of Large Scale Erythroid Progenitor Cultures From Human Embryonic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$396,718.00
Summary
Transfusion of fresh red blood cell units of the correct blood type into patients can be life saving. However, access to units of the correct blood type is often limited due to limited supply of donor blood and its short shelf life creating the need for a constant donor blood supply. We propose to develop a system that allows us to generate unlimited numbers of human red blood cells in a culture dish which we will derive from differentiating human embryonic stem cell lines.
Role Of The Ets-family Transcription Factor Erg In Haematopoiesis
Funder
National Health and Medical Research Council
Funding Amount
$100,621.00
Summary
Development of blood cells is controlled by specific molecules called transcription factors. Transcription factors are important in developing mature white cells, red cells and platelets from blood stem cells. We have discovered that a transcription factor, Erg, is important in control of blood stem cells and blood cell development as well as being implicated in human cancers, including acute leukaemia. This project will characterise how this molecule is involved in these specific processes.