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
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.
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 Med12, A Subunit Of RNA Polymerase II Mediator, In Haemopoiesis
Funder
National Health and Medical Research Council
Funding Amount
$495,490.00
Summary
In a screen of zebrafish for mutations in blood cell development, we isolated a mutant called syrah. The mutation causing the blood defect was identified in a gene called med12, which encodes a component of the RNA transcription machinery in cells. To understand how this mutation causes a reduction in blood cells, we will identify the proteins that interact with the med12 protein. Understanding the pathway involved may lead to the discovery of new causes of human congenital blood diseases.
Investigation Of The Role Of The GPIb/V/IX-filamin-1 Interaction In Regulating Platelet Function In Vivo
Funder
National Health and Medical Research Council
Funding Amount
$267,750.00
Summary
Platelets play an essential role in blood clotting and blod vessel repair. Upon injury to a blood vessel, platelets rapidly adhere to the area of damage where they undergo dramatic changes in their shape and internal structure that facilitates spreading over the area of injury and subsequent formation of a stable blood clot. Our research studies are aimed at understanding more closely the factors that regulate the adhesiveness of platelets, since this is an important determinant not only in norm ....Platelets play an essential role in blood clotting and blod vessel repair. Upon injury to a blood vessel, platelets rapidly adhere to the area of damage where they undergo dramatic changes in their shape and internal structure that facilitates spreading over the area of injury and subsequent formation of a stable blood clot. Our research studies are aimed at understanding more closely the factors that regulate the adhesiveness of platelets, since this is an important determinant not only in normal blood clot formation but also in the development of harmful blood clots (thrombosis) associated with the development of diseases such as heart attack and stroke. Our particular focus is on the interaction between adhesion receptors on the surface of the platelet and components of the intracellular platelet structure referred to as the cytoskeleton and how this interaction might regulate the reactivity of platelets and their ability to adhere to blood vessels. We believe this may be an important mechanism that regulates platelet adhesion and notmal blood clotting.Read moreRead less
Dissecting The Role Of The IL-3 Receptor Alpha Subunit And Beta-catenin In Acute Myeloid Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$583,312.00
Summary
Leukaemia is a devastating form of blood cancer affecting both young and old. We aim to understand the mechanisms of uncontrolled cell growth associated with acute myeloid leukaemia. We focus on the role of key growth regulators that are abnormally active in the critical leukaemia stem cells. Understanding the biological and molecular properties of these cells is of considerable importance for development of the next generation of leukaemia therapies.
Investigation Of A New Rheology Dependent Platelet Aggregation Mechanism
Funder
National Health and Medical Research Council
Funding Amount
$509,447.00
Summary
We plan to examine a new mechanism promoting blood clot formation that involves the clumping (aggregation) of blood platelets. Our central hypothesis is that disturbances of blood flow, as occurs in diseased arteries, activates this clotting mechanism through a unique platelet activation process. Defining this new activation mechanism has the potential to lead to new approaches to prevent blood clot formation in patients with heart disease.