Zbtb11 is a druggable protein that is mis-expressed in blood cancers - second biggest cause of cancer death in Australia - and liver cancer, third leading cause of death from cancer worldwide. We have found that it interacts with 2 other proteins with potential roles in these diseases. Our studies examine the nature of these Zbtb11-partner interactions and their particular consequences for blood disorders. Zbtb11 contributions to disease development will be a target for novel disease therapy.
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.
Platelet Receptor Regulation In Autoimmune Disease
Funder
National Health and Medical Research Council
Funding Amount
$507,536.00
Summary
In response to bleeding, blood platelets use receptors to form a thrombus (blood clot) and block further loss of blood and aid tissue repair. People treated with heparin prior to surgery, can form autoantibodies that attack platelets, leading to thombus and thrombocytopenia (dangerous loss of circulating platelets). This is a significant clinical problem that is difficult to diagnose. We will determine how platelet receptor shedding can aid the diagnosis of heparin-induced thrombocytopenia.
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
Identification Of The Molecular Genetic Basis Of The Hepatic Veno-occlusive Disease With Immunodeficiency Syndrome
Funder
National Health and Medical Research Council
Funding Amount
$224,250.00
Summary
One of the most serious complications of bone marrow transplantation is veno-occlusive disease (VOD), also termed sinusoidal obstruction syndrome (SOS). This condition occurs in 10% of transplanted patients and is characterised by abnormalities of liver function, enlargement of the liver, clotting abnormalities, fluid retention and finally failure of multiple organs and death in 30-50% of cases. The cause of VOD is unknown, and its occurrence cannot be predicted in individual patients. Eight fam ....One of the most serious complications of bone marrow transplantation is veno-occlusive disease (VOD), also termed sinusoidal obstruction syndrome (SOS). This condition occurs in 10% of transplanted patients and is characterised by abnormalities of liver function, enlargement of the liver, clotting abnormalities, fluid retention and finally failure of multiple organs and death in 30-50% of cases. The cause of VOD is unknown, and its occurrence cannot be predicted in individual patients. Eight families have been described in whom a number of individuals have succumbed to a condition which is clinically and histologically indistinguishable from VOD. Affected individuals also have a form of immunodeficiency (hence termed VODI), and the abnormalities are inherited in an autosomal recessive pattern. All eight are of Lebanese origin, suggesting that a single genetic ancestral mutation was responsible for the disorder in all families, who are distantly related. We have access to genetic material from three of these families, and are on the way to identifying the causative genetic abnormality. We hypothesise that understanding this abnormality will lead to an understanding of VOD which occurs after bone marrow transplantation. We have used 800 polymorphic genetic markers scattered throughout the genome to identify the location of the genetic abnormality, and have localised the defect to a region of chromosome 2 which contains approximately 37 known and predicted genes. We now aim to determine which of the gene(s) in the candidate region is responsible for VODI, and plan to examine DNA from individuals who have had VOD after transplantation to determine if they have a related abnormality. Finding the VODI gene will benefit these families through the availability of carrier detection and may also lead to an understanding of the veno-occlusive disease that occurs after bone marrow transplantation.Read moreRead less
A Novel Genetic Element Controlling Adult Hemoglobin Production
Funder
National Health and Medical Research Council
Funding Amount
$493,907.00
Summary
Disorders of the blood protein hemoglobin are the commonest genetic diseases worldwide, and include thalassemia and sickle cell disease. In this proposal we study two novel mouse lines that exhibit thalassemia, but lack any of the known genetic mutations that cause this disease. These mice afford us the opportunity to make unique observations into how hemoglobin is produced, and thereby provide a platform for new therapeutic approaches in these devastating diseases of the blood.
The Role Of The Platelet Glycoprotein Ib Alpha Cytoplasmic Domain In Thrombosis
Funder
National Health and Medical Research Council
Funding Amount
$600,230.00
Summary
Our studies aim to provide a better understanding of the factors that make platelets sticky, because this is important not only for normal blood clot formation but also in the development of harmful blood clots (thrombosis). Improving our understanding of these processes will add significantly to our knowledge of how blood clotting is controlled. This information is relevant to many human diseases including heart attack and stroke and will help us to develop drugs to prevent these diseases.
Understanding How Tetraspanin Superfamily Members Modulate Platelet Function
Funder
National Health and Medical Research Council
Funding Amount
$469,500.00
Summary
Platelets are small cells in the blood stream that play an important role in preventing excessive blood loss at sites of tissue injury by sticking together and forming a haemostatic plug. Excessive platelet clumping in diseased blood vessels can lead to blockages and cause thrombotic diseases such as heart attack and stroke, two of the biggest killers of humans in the western world. In this proposal, we will seek to understand how tetraspanin superfamily members expressed on the surface of plate ....Platelets are small cells in the blood stream that play an important role in preventing excessive blood loss at sites of tissue injury by sticking together and forming a haemostatic plug. Excessive platelet clumping in diseased blood vessels can lead to blockages and cause thrombotic diseases such as heart attack and stroke, two of the biggest killers of humans in the western world. In this proposal, we will seek to understand how tetraspanin superfamily members expressed on the surface of platelets modulate the function of the major platelet integrin, integrin alphaIIbbeta3 and the low-affinity IgG receptor, FcgammaRIIa. This aims of this work will define the roles of these receptors in platelet clumping both in cell-based assays and in mouse models of thrombosis. This work could lead to new strategies for therapeutic management of thrombotic disorders.Read moreRead less
Genetic Analysis Of Drug Resistance In Childhood Acute Lymphoblastic Leukaemia
Funder
National Health and Medical Research Council
Funding Amount
$227,036.00
Summary
Treatment for childhood leukaemia fails in approximately 25% of children owing to resistance to the drugs being used. Our recent evidence suggests that only a few rare leukaemic cells are initially resistant at the commencement of treatment. This project aims to isolate these rare cells and to look for genetic changes in them which might account for their resistance. Hopefully an understanding of the genetic basis for drug resistance will lead to better means of overcoming it.