Do Bone Marrow Macrophages Regulate Leukaemia Stem Cells And Their Response To Treatment?
Funder
National Health and Medical Research Council
Funding Amount
$590,103.00
Summary
This project will investigate the role of population of immune cells called macrophages in promoting resistance of leukaemia cells to chemotherapy treatments. As a high proportion of adult patients with acute leukaemia cannot be cured with current treatments, this project could lead to more efficacious therapies targeting macrophages to sensitise leukaemia cells to chemotherapy treatments.
Regulation Of Normal And Malignant Haematopoiesis By The Bone Marrow Environment
Funder
National Health and Medical Research Council
Funding Amount
$621,458.00
Summary
This project will identify factors within the bone marrow that regulate blood and immune cell formation. These include oxygenation and novel proteins identified in the applicant’s laboratory. How these factors from the bone marrow influence the behaviour of normal blood forming cells (called haematopoietic stem cells), and the progression of leukaemia and the response of leukaemia to chemotherapy treatments will be investigated. New drugs that interfere with these new factors will be tested for ....This project will identify factors within the bone marrow that regulate blood and immune cell formation. These include oxygenation and novel proteins identified in the applicant’s laboratory. How these factors from the bone marrow influence the behaviour of normal blood forming cells (called haematopoietic stem cells), and the progression of leukaemia and the response of leukaemia to chemotherapy treatments will be investigated. New drugs that interfere with these new factors will be tested for their potential to treat leukaemia.Read moreRead less
Stem Cell Niches: Biology And Therapeutic Applications
Funder
National Health and Medical Research Council
Funding Amount
$640,210.00
Summary
This research aims to identify how stem cells are regulated in the body in order to improve therapies for blood disorders and abnormal bone formation after severe traumas. Targeting molecules that deregulate stem cells will lead to improved treatments for diseases with outcomes including improved treatments for blood stem cell transplantation, improved therapy in cancer patients and reduced complications of spinal cord injuries.
CXCR4 Antagonists In Acute Lymphoblastic Leukemias In NOD/SCID Mice
Funder
National Health and Medical Research Council
Funding Amount
$505,500.00
Summary
Acute lymphoblastic leukemia (ALL) is the most common form of childhood cancer and a major cause of death in children. Although ALL is usually responsive to chemotherapy, about 25% of children and 65% of adults with ALL develop a relapse of their disease. The majority of these patients will die of leukemia. New approaches to the treatment of ALL are necessary to obtain cures for these patients. We have identified stromal-derived factor (SDF)-1 as a major regulator of ALL cell growth and survival ....Acute lymphoblastic leukemia (ALL) is the most common form of childhood cancer and a major cause of death in children. Although ALL is usually responsive to chemotherapy, about 25% of children and 65% of adults with ALL develop a relapse of their disease. The majority of these patients will die of leukemia. New approaches to the treatment of ALL are necessary to obtain cures for these patients. We have identified stromal-derived factor (SDF)-1 as a major regulator of ALL cell growth and survival. It is currently the only known factor that significantly stimulates the growth-survival of cells from the majority of patients with ALL. Specific antagonists of the SDF-1 receptor, CXCR4, are available. Depriving ALL cells of SDF-1 by the use of these antagonists provides a radically new approach for the treatment of ALL. CXCR4 antagonists also increase the susceptibility of ALL cells to cytotoxic drugs. The mechanisms by which SDF-1 promotes ALL cell growth and survival are not known but appear to be largely due to synergistic interactions with other molecules that have little or no effect on their own. Knowledge of the underlying mechanisms of action of SDF-1 and the factors with which it synergises will facilitate for the further development of this approach. This project will examine the modulation of the expression of proteins that regulate ALL cell growth and survival by CXCR4 antagonists, providing insights into how CXCR4 antagonists work. This project will also extend our encouraging data obtained using tissue culture to an animal model of leukemia. The antagonists will be tested in isolation and in combination with currently used chemotherapy agents. It is expected that CXCR4 antagonists will inhibit the growth of ALL cells and increase their sensitivity to chemotherapy agents in the animal model as we have seen in laboratory culture. The addition of CXCR4 antagonists to current treatment protocols is expected to significantly improve the outcome for patients.Read moreRead less