Formation of clots to prevent blood loss is initiated by the platelet receptors, glycoprotein (GP)Ib-IX-V and GPVI. Unfortunately, there is a gap in our knowledge regarding the events immediately following activation of these receptors and the known downstream signalling. We have identified a novel binding partner for these platelet receptors, which we believe links reactive oxygen species to platelet signalling events. This opens new avenues for therapies to prevent aberrant clotting.
Determining The Transcriptional Programme Of A Leukaemogenic Transcription Factor In Normal And Leukaemic Cells
Funder
National Health and Medical Research Council
Funding Amount
$643,958.00
Summary
Leukaemic (blood cancer) cells develop from immature blood cells by inappropriate expression of genes. These genes are also those that are required for normal blood production in the embryo. Gene expression during normal blood development is tightly controlled. However in leukaemia, these genes are expressed at inappropriate stages of blood development. We will investigate whether leukaemic cells adopt features of embryonic blood stem cells to express genes that convert normal cells into abnorma ....Leukaemic (blood cancer) cells develop from immature blood cells by inappropriate expression of genes. These genes are also those that are required for normal blood production in the embryo. Gene expression during normal blood development is tightly controlled. However in leukaemia, these genes are expressed at inappropriate stages of blood development. We will investigate whether leukaemic cells adopt features of embryonic blood stem cells to express genes that convert normal cells into abnormal cells.Read moreRead less
The Role Of Ap2a2 In Self-renewal Of Haematopoietic And Leukemic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$579,171.00
Summary
The daily replenishment of the blood system is dependent on the blood stem cell. A unique property of these stem cells is self-renewal where the stem cell function is preserved, whilst other daughter cells continue to divide. Our research investigates the molecular mechanisms that regulate stem cell self-renewal. This work has potential clinical application on at least two levels: expansion of stem cells for transplantation, and for attacking abnormal cancer cell self-renewal pathways.
We want to understand more about the control of blood cell formation and the development of leukaemia. We have discovered one gene that is very important in both these processes. It is the most common genetic abnormality involved in causing human T-cell leukaemia and we have recently shown that it is absolutely required for the development of all blood cells within an animal. We wish to take these observations further so that we can ultimately understand how a gene important in blood cell format ....We want to understand more about the control of blood cell formation and the development of leukaemia. We have discovered one gene that is very important in both these processes. It is the most common genetic abnormality involved in causing human T-cell leukaemia and we have recently shown that it is absolutely required for the development of all blood cells within an animal. We wish to take these observations further so that we can ultimately understand how a gene important in blood cell formation can also be important in causing leukaemia. To address this we will generate new models of blood cell development.Read moreRead less
Modern chemotherapies are designed to exert maximal effect on tumour cells while having minimal side-effects on normal cells. Remarkable advances in our understanding of the molecular biology of cancer has provided possible avenues for more successful targeted cancer treatments. Several crucial interactions between cancer-specific proteins called oncoproteins , occur largely in tumour cells and thus provide ideal targets for intervention. The proposed project is to develop a model system for a t ....Modern chemotherapies are designed to exert maximal effect on tumour cells while having minimal side-effects on normal cells. Remarkable advances in our understanding of the molecular biology of cancer has provided possible avenues for more successful targeted cancer treatments. Several crucial interactions between cancer-specific proteins called oncoproteins , occur largely in tumour cells and thus provide ideal targets for intervention. The proposed project is to develop a model system for a target specific therapy of leukaemia cells by blocking the interactions between oncoproteins. Moreover, the ability to isolate specific blockers of particular protein-protein interactions provides an opportunity to unravel complex genetic pathways in mammalian systems, which are relatively intractable by other analyses. The dissection of pathways using specific blockers may also provide a useful avenue for identifying new drug targets. We have chosen to target particular interactions involving one known oncoprotein in the search for specific inhibitors. A genetic selection will be used to identify random, constrained peptide sequences which are capable of blocking these interactions and which do not interfere with other interactions involving the oncoprotein. This technique allows one to select for or against specific blockers of known interactions from a library containing millions of candidate drug leads in baker's yeast cells. This procedure will be most suitable for high through-put drug screening projects. The validity of this approach to the identification of new peptide drug leads will be finally established in vivo using transgenic models of oncoprotein-dependent cancer in mice.Read moreRead less
The Role Of Intracellular Uptake And Retention Of Abl Kinase Inhibitors In Modifying Clinical Response In CML
Funder
National Health and Medical Research Council
Funding Amount
$465,210.00
Summary
Imatinib is one of the first targeted anticancer drugs to be clinically developed. It is designed to inhibit the kinase activity of BCR-ABL, a mutant protein found in some cases of leukaemia, particularly chronic myeloid leukaemia. Blocking the kinase activity of BCR-ABL has proven to be highly effective therapy for most patients, achieving prolonged remissions and significantly improving survival. However resistance to imatinib is a problem, including failure to respond to imatinib, loss of res ....Imatinib is one of the first targeted anticancer drugs to be clinically developed. It is designed to inhibit the kinase activity of BCR-ABL, a mutant protein found in some cases of leukaemia, particularly chronic myeloid leukaemia. Blocking the kinase activity of BCR-ABL has proven to be highly effective therapy for most patients, achieving prolonged remissions and significantly improving survival. However resistance to imatinib is a problem, including failure to respond to imatinib, loss of response, and long term persistence of low levels of leukaemia. New ABL kinase inhibitors (AKIs) have been developed that are more potent than imatinib, but they also appear to be prone to resistance. One potentially important cause of resistance to AKIs is the ability of some leukaemic cells to modify their cellular pathways to reduce the effective concentration of the drug by either reducing its movement into the cell (influx) or increasing its movement out (efflux). We will investigate the mechanisms used by resistant leukaemic cells to reduce intracellular drug levels of these AKIs and test ways of countering these effects by blocking the proteins responsible for drug efflux or promoting drug influx. These studies will use our stored collections of leukaemic cells from responsive and resistant patients to determine the importance of specific influx and efflux pumps. It will help to identify patients where this form of resistance is limiting response. This may allow us to develop more effective AKIs that are less prone to these forms of drug resistance. We will also test whether other anti-cancer drugs have an impact on AKI drug transport because this could reduce the effectiveness of combination treatment. The effects on drug transport of concomitant administration of commonly used drugs together with AKIs will also be studied because this can reduce the effectiveness of AKis or in some cases improve their effectiveness by increasing their uptake and retention.Read moreRead less
MINIMAL RESIDUAL DISEASE IN ACUTE LYMPHOBLASTIC LEUKAEMIA
Funder
National Health and Medical Research Council
Funding Amount
$455,204.00
Summary
This project will study the extremely small numbers of leukaemic cells which are found in patients who are apparently healthy, but which sometimes lead to relapse. Very sensitive methods for measuring and studying low levels of leukaemic cells will be developed and used. To develop new better treatments in the long term, we will study why current treatment sometimes fails to eradicate the leukaemia, leading to patients relapsing. Clinicians currently need to obtain samples of bone marrow to asse ....This project will study the extremely small numbers of leukaemic cells which are found in patients who are apparently healthy, but which sometimes lead to relapse. Very sensitive methods for measuring and studying low levels of leukaemic cells will be developed and used. To develop new better treatments in the long term, we will study why current treatment sometimes fails to eradicate the leukaemia, leading to patients relapsing. Clinicians currently need to obtain samples of bone marrow to assess leukaemia, and the research will show whether this needs to be continued, or whether, with sensitive tests, samples of blood can be used instead. The study will involve collaboration with clinicians throughout Australia and overseas.Read moreRead less
Role Of The Hypoxia-inducible Transcription Factor HIF-1a In Controlling Haematopoietic Stem Cell Fate
Funder
National Health and Medical Research Council
Funding Amount
$586,428.00
Summary
Haematopoietic stem cells (HSCs) reside in the bone marrow (BM) and make all immune and blood cells. We have found that, in the areas of the BM where HSC normally live, the level of oxygen is very low (hypoxia) and decreases even further when HSC are forced to move into the blood in order to be collected for transplantation. This project is to better understand how oxygenation of the BM controls HSC behaviour and properties, and to evaluate its impact on HSC transplantation.
The Use Of Minimal Residual Disease Detection To Improve Treatment Outcome In Childhood Acute Lymphoblastic Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$316,650.00
Summary
Leukaemia is the most common childhood cancer, representing approximately 35% of all cases. Despite intensive therapy, the disease frequently recurs in the bone marrow and although children are classified into good and poor prognosis groups at diagnosis based on a number of criteria, relapses nevertheless occur in both groups. Available evidence suggests that early detection of poor treatment response in the otherwise good prognosis group, and the implementation of alternative therapy when the c ....Leukaemia is the most common childhood cancer, representing approximately 35% of all cases. Despite intensive therapy, the disease frequently recurs in the bone marrow and although children are classified into good and poor prognosis groups at diagnosis based on a number of criteria, relapses nevertheless occur in both groups. Available evidence suggests that early detection of poor treatment response in the otherwise good prognosis group, and the implementation of alternative therapy when the cancer burden is at a low level, has a high likelihood of improving patient survival. The failure to respond well to treatment is assessed by a novel molecular genetic technique developed in our laboratory that can detect and quantitate very low levels of residual leukaemia with great sensitivity and specificity. The major goal of this project is to conduct a clinical trial in which this testing procedure is used at an early stage of treatment, and patients who have a bad result on this test, will be given more intensive treatment to see if this improves survival rates. In addition, the project is also directed towards investigating a range of genes known to have a role in drug detoxification. A number of naturally occurring variations exist for these drug metabolising genes and there is evidence suggesting that specific variations or patterns may influence a cancer's response to treatment. We will therefore examine the genetic patterns present in a large cohort of leukaemias and correlate these patterns with response to treatment. It is anticipated that these studies will help define the most appropriate treatment strategies for children with leukaemia. This project therefore has major implications for the therapeutic management of children with leukaemia and has the potential of contributing directly to the improved survival of this most common of childhood cancers.Read moreRead less