A Phase I Study Of Autologous CD19 Specific Chimeric Antigen Receptor T-cells For Therapy Of Relapsed And Refractory B-cell Leukaemia And Lymphoma (The Auto-CAR19 Trial).
Funder
National Health and Medical Research Council
Funding Amount
$584,666.00
Summary
Most people with leukaemia and lymphoma who relapse early after chemotherapy die of their disease. Inserting special genes into immune cells can enable them to kill leukaemia and lymphoma and has led to dramatic cures, but the cost of the viral vectors used to make these cells is prohibitively expensive. We will make leukaemia and lymphoma specific immune cells from patients using an inexpensive non-viral system, then administer the immune cells to patients to assess their safety and efficacy.
A Clinical Trial Of Partially HLA-matched Unrelated Donor Microtransplantation For Prevention Of Relapse In Patients With Acute Myeloid Leukaemia Ineligible For Standard Haemopoietic Stem Cell Transplantation
Funder
National Health and Medical Research Council
Funding Amount
$154,828.00
Summary
Acute myeloid leukaemia has a poor prognosis in patients unable to undergo bone marrow transplant, in particular in the elderly. No proven therapy improves their poor outcome. There is an urgent need to identify clinically applicable, non-toxic therapies for this group of patients. We will perform a clinical trial of "microtransplantation" using unrelated stem cell donors in combination with chemotherapy to try to reduce the relapse rate in these patients without the toxic effects of standard st ....Acute myeloid leukaemia has a poor prognosis in patients unable to undergo bone marrow transplant, in particular in the elderly. No proven therapy improves their poor outcome. There is an urgent need to identify clinically applicable, non-toxic therapies for this group of patients. We will perform a clinical trial of "microtransplantation" using unrelated stem cell donors in combination with chemotherapy to try to reduce the relapse rate in these patients without the toxic effects of standard stem cell transplantation.Read moreRead less
Trial To Evaluate Anti-fibrinolytic Therapy In Thrombocytopenia (TREATT)
Funder
National Health and Medical Research Council
Funding Amount
$1,057,478.00
Summary
Patients with haematologic malignancies often have low platelet counts from their disease or treatment. This can be associated with bleeding, which can sometimes be serious or fatal. Nearly 2/3 of all platelet transfusions in Australia are given in this setting to try to prevent bleeding but many people still experience bleeding. This study asks whether tranexamic acid can safely & effectively reduce bleeding and if it does, does reduced bleeding lead to reduction in platelet transfusions?
Improving Patient Outcomes Through Understanding And Changing Transfusion Practice
Funder
National Health and Medical Research Council
Funding Amount
$75,347.00
Summary
Blood transfusion has a central role in many areas of clinical medicine. Despite its widespread use, there are large areas where evidence to inform clinical practice is limited. The aim of this proposed research is to investigate the current use of blood products in clinical medicine. Data on blood transfusion will be linked with existing clinical registries to examine how transfusion practice influences patient outcomes in a range of clinical areas including trauma, surgery and critical care.
Investigation Of Haematopoietic And Leukemia Stem Cell Self-renewal.
Funder
National Health and Medical Research Council
Funding Amount
$415,218.00
Summary
The blood stem cell properties of self-renewal and multipotency allows for the constant replenishment of all blood components. Blood cancer stem cells use self-renewal to propagate disease, and can enter a quiescent-dormant phase to evade treatment. My research focuses on the identification and mechanisms of new genes that govern these unique blood stem cell properties, and to investigate whether these genes are also important in blood cancers.
Investigating The Gene And Gene Expression Differences In The Cells That Drive Leukemia Development And Relapse In Children With AML
Funder
National Health and Medical Research Council
Funding Amount
$388,612.00
Summary
Current treatments for AML are initially effective at killing the majority of leukemic cells, but the disease often comes back (relapses) due to rare cells that escape treatment and can regenerate the cancer (called leukemic stem cells or LSC for short). This project aims to determine if an individual patient has one, or many kinds of LSC and which kind of LSC is most likely to cause relapse. We believe that this knowledge will lead to new treatments that can target the cells that cause relapse.
Is Hypoxia Inducible Factor 2 The Trigger Of The Angiogenic Switch And A Driver Of Disease Progression In Myeloma?
Funder
National Health and Medical Research Council
Funding Amount
$605,096.00
Summary
Multiple myeloma (MM) is a fatal cancer of plasma cells (PC). PC migrate to the bone marrow, which compared with other organs is low in oxygen (hypoxic). In response to this hypoxia, the cancer cells turn on the expression of genes called hypoxia-inducible factors (HIF). HIFs activate the expression of genes that encourage blood vessel formation, which in turn stimulates greater tumour growth and disease progression. This proposal will investigate the role of HIFs in the progression of MM.
The Molecular And Cellular Mechanisms Responsible For The Skeletal Complications Associated With Multiple Myeloma.
Funder
National Health and Medical Research Council
Funding Amount
$212,036.00
Summary
Multiple myeloma is an incurable disease of the antibody-producing B cell. Patients with MM, nearly always present with bone pain and unexplained bone fractures. These fractures are caused by the cancerous MM B cells, which are found in large numbers in discrete pockets throughout the bone marrow, close to the inner bone surface. The way that the cancerous B cells cause the local bone lesions is thought to be through the heightened activation of recruitment of osteoclasts. Osteoclasts are cells ....Multiple myeloma is an incurable disease of the antibody-producing B cell. Patients with MM, nearly always present with bone pain and unexplained bone fractures. These fractures are caused by the cancerous MM B cells, which are found in large numbers in discrete pockets throughout the bone marrow, close to the inner bone surface. The way that the cancerous B cells cause the local bone lesions is thought to be through the heightened activation of recruitment of osteoclasts. Osteoclasts are cells which normally, in a controlled manner, resorb bone as part of the ongoing process of new bone formation. We propose that myeloma cells, which exhibit characteristics of osteoclasts, home to sites in the bone marrow and initiate this bone breakdown and furthermore secrete factors required for osteoclast maturation and activity. We believe that these molecules include the recently defined molecule, termed osteoclast differentiation factor, which is normally produced by bone-producing cells known as osteoblasts. Moreover, we feel that myeloma B cells alter the function of osteoblast cells, which results in a decrease in bone formation. Finally, we propose that this disease and its associated bone defects originate from changes in the expression of a number of genes. The results from theses studies should provide a greater understanding of the way in which this B cell cancer originates and how it causes bone defects. This will lead to the development of better treatments to improve the survival of patients with MM, and will lead to therapies to prevent the associated bone complications.Read moreRead less
Antagonists Of P38 MAPK As Therapeutics For Acute Lymphoblastic Leukemia.
Funder
National Health and Medical Research Council
Funding Amount
$521,961.00
Summary
New therapies are needed to treat patients with leukemia. Moving leukemic cells into the blood reduces their growth and increases the effects of chemotherapy. Currently we cannot move leukemic cells into the blood without moving normal blood forming cells, making them more sensitive to chemotherapy. We have identified a drug that only affects leukemic cell movement. This study will examine the potential of this drug to treat leukemia.
The Role Of CXCL12 (SDF-1)/CXCR4 In Pathological Angiogenesis And Osteolytic Bone Disease In Multiple Myeloma
Funder
National Health and Medical Research Council
Funding Amount
$665,896.00
Summary
Multiple myeloma (MM) is the second most common haematological (or blood) cancer in western countries and is unique amongst blood cancers in its capacity to destroy the skeleton. MM is a cancer of plasma cells, which in their normal non-cancerous form, reside in lymph nodes and produce antibodies against infectious agents. When they become cancerous, they migrate or home to congenial sites within the bone marrow (BM). This directed movement or homing occurs under the influence of a chemokine mol ....Multiple myeloma (MM) is the second most common haematological (or blood) cancer in western countries and is unique amongst blood cancers in its capacity to destroy the skeleton. MM is a cancer of plasma cells, which in their normal non-cancerous form, reside in lymph nodes and produce antibodies against infectious agents. When they become cancerous, they migrate or home to congenial sites within the bone marrow (BM). This directed movement or homing occurs under the influence of a chemokine molecule called CXCL12 which acts as a calling card for plasma cells to leave the lymph node and migrate to the BM. Once within the BM, the cells rapidly grow in response to BM-derived growth factors. This rapid growth causes a depletion in oxygen availability within the tumour and it becomes hypoxic. In response to this hypoxia, the tumour expresses a gene called hypoxia-inducible factor-1 (HIF-1) which regulates the expression of many proteins, including the chemokine CXCL12. Our studies show that the abnormal expression of CXCL12 by the plasma cells acts to promote blood vessel formation within the tumour, which in turn leads to greater tumour growth. In addition, our studies suggest that abnormal CXCL12 expression also promotes the recruitment and activation of large numbers of osteoclast (OC) precursors form the peripheral blood. OC are cells which normally remove unwanted or damaged bone. This proposal will study the interplay between HIF and CXCL12 in the establishment and development of MM and the associated bone destruction.Read moreRead less