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CHARACTERISATION AND ANTIBODY-MEDIATED TARGETING OF A NOVEL SPECIFIC MARKER FOR T CELL ALL/LYMPHOBLASTIC LYMPHOMA
Funder
National Health and Medical Research Council
Funding Amount
$586,146.00
Summary
Improvements in treatment have seen some types of leukaemia (a cancer of white blood cells) being curable in up to 90% of patients with the disease; however, other types of leukaemia do not respond to these drugs and new approaches are needed. We have discovered that some leukaemia cells express a unique protein not made by any other cell type. This project will analyse how this aberrant protein is made and how this process contributes to the development of leukaemia. Also, since this protein is ....Improvements in treatment have seen some types of leukaemia (a cancer of white blood cells) being curable in up to 90% of patients with the disease; however, other types of leukaemia do not respond to these drugs and new approaches are needed. We have discovered that some leukaemia cells express a unique protein not made by any other cell type. This project will analyse how this aberrant protein is made and how this process contributes to the development of leukaemia. Also, since this protein is unique to the leukaemia cells, it offers the opportunity to develop magic bullets able to target specifically to the leukaemia cells and to kill them. This project aims to make one such drug and to conduct preliminary testing.Read moreRead less
Proof-of-concept Studies For A Novel Anti-thrombotic Agent
Funder
National Health and Medical Research Council
Funding Amount
$632,352.00
Summary
Blood clots cause most heart attacks and strokes, and platelets are the blood cells that form these clots. Drugs that block platelet function, such as aspirin, are used to prevent heart attack and stroke but are frequently ineffective. Here, we will develop a new drug that prevents platelet incorporation into blood clots, that will be suitable for the prevention of heart attack and stroke in humans, and that may improve on existing therapies.
Heparin-induced Thrombocytopenia And Thrombosis: Better Understanding Of Pathogenesis And Improving Diagnosis And Treatment
Funder
National Health and Medical Research Council
Funding Amount
$653,137.00
Summary
Heparin, a widely used drug, can cause an adverse effect which results in a fall of the platelet count and the development of serious thrombosis. This drug complication is mediated by an immune mechanism. This proposal aims to provide a better understanding of the disease mechanism. It also aims to develop a new test that will improve the diagnosis, and to produce a novel drug that will effectively suppress the immune reaction and improve the treatment.
Drug-induced Immune Thrombocytopenia: Understanding The Disease Mechanisms Is The Key To Better Treatment
Funder
National Health and Medical Research Council
Funding Amount
$509,550.00
Summary
Many very commonly used medications cause an allergic reaction in a small number of patients that receive them. The allergic reaction results in platelets being destroyed and puts the patients at risk of bleeding. The patient recovers slowly if the drug is stopped but there is no other treatment and no way to reverse the effect quickly if the patient starts to bleed. This project will try to understand the mechanism of the condition and test a potential treatment.
Antibody-mediated Dendritic Cell Depletion To Attenuate GVHD
Funder
National Health and Medical Research Council
Funding Amount
$434,510.00
Summary
Not all patients with leukemia will be cured by chemotherapy. Stem cell transplantation improves their chances of survival. Stem cell transplantation requires intensive chemotherapy and radiotherapy to eradicate the underlying disease and infusion of healthy stem cells to provide an anti-leukemic effect and normal blood cells. Recovery from transplantation is not straightforward. Recovery can be hampered by the immunological reaction of the donor cells against the patient (Graft versus Host Dise ....Not all patients with leukemia will be cured by chemotherapy. Stem cell transplantation improves their chances of survival. Stem cell transplantation requires intensive chemotherapy and radiotherapy to eradicate the underlying disease and infusion of healthy stem cells to provide an anti-leukemic effect and normal blood cells. Recovery from transplantation is not straightforward. Recovery can be hampered by the immunological reaction of the donor cells against the patient (Graft versus Host Disease [GVHD]), despite immunosuppression. GVHD produces serious damage to the internal organs and lining of the mouth and gut. Recovery can also be circumvented by leukemic relapse. GVHD is associated with an increased risk of death and dying after transplantation. To date therapy for GVHD has relied on eliminating the T cells that cause the disease. However for T cells to cause damage they must first be primed with antigen presented on activated dendritic cells. The intensive conditioning therapy required to eradicate the underlying disease before transplantation also activates dendritic cells. Our project seeks to investigate the effects of lethal and non-lethal conditioning on dendritic cells with the aim of validating the use of antibodies designed to deplete activated dendritic cells as therapy for graft versus host disease.Read moreRead less
The Translation Of Dendritic Cell Biology Into Clinical Practice
Funder
National Health and Medical Research Council
Funding Amount
$3,674,406.00
Summary
This Program combines world recognized expertise in the science of immunology and the blood system, with top Australian expertise in the practice of bone marrow transplantation and the treatment of hematological malignancies. Its vision is to study the biology of dendritic cells, which are the specialized white cells that initiate the immune response, and then, to apply this knowledge to the design and introduction of novel diagnostic and therapeutic immune strategies, to improve the survival of ....This Program combines world recognized expertise in the science of immunology and the blood system, with top Australian expertise in the practice of bone marrow transplantation and the treatment of hematological malignancies. Its vision is to study the biology of dendritic cells, which are the specialized white cells that initiate the immune response, and then, to apply this knowledge to the design and introduction of novel diagnostic and therapeutic immune strategies, to improve the survival of patients with leukaemia, lymphoma and multiple myeloma.Read moreRead less