Identification Of Haematopoietic Stem And Progenitor Cell Subpopulations
Funder
National Health and Medical Research Council
Funding Amount
$873,525.00
Summary
We want to dissect the machinery underlying how each and every individual stem and progenitor cell generates the different blood cell types. We have at our disposal the latest molecular and computational technologies to do this. Knowledge gained from this project could be used for tissue engineering to make blood cells on demand for patients with immune deficiency, or alternatively to treat leukaemia patients where blood cells are overproduced.
Making Human T- And B-lymphocytes For Immunotherapy And Antibody Production
Funder
National Health and Medical Research Council
Funding Amount
$795,880.00
Summary
Lymphocytes are white blood cells that are involved in producing antibodies, killing defective cells, or killing cells infected with viruses. In recent years, researchers have found ways to harness lymphocytes to develop medicines for treating a variety of different cancers. In this project, we will establish methods to make human lymphocytes in the laboratory from stem cells, paving the way for the broader application of this cell type to new therapies.
DNA damage response pathways play important roles in preventing the onset of cancer and regulating the clinical response to chemotherapeutics, and some of the relevant proteins have additional functions during normal development. This fellowship will study new a human protein with key roles in the formation of the lung, and its roles in preventing devastating consequences of normal oxidative damage to DNA, as well as additional fundamental mechanisms involved in preventing genome mutations.
Activation And Suppression Of Oncogenic Translocation By Uracil-DNA Glycosylases
Funder
National Health and Medical Research Council
Funding Amount
$513,000.00
Summary
The AID enzyme is implicated in cancer in B lymphocytes and prostate cells. AID causes DNA damage normally recognised by repair enzymes UNG and MutS?, among others. The repair processes these factors initiate involve a DNA break that, if incorrectly re-joined, destabilises the genome, causing cancer. Understanding the function of AID, UNG and MutS? in B cell lymphomas and prostate cancer will provide fundamental insights into cancer and may identify targets for new therapeutics.
Blimp-1: A Master Regulator Of B-lymphocyte Terminal Differentiation?
Funder
National Health and Medical Research Council
Funding Amount
$154,250.00
Summary
B lymphocytes are the antibody-producing cells of the immune system. They are formed in the bone marrow, and are exported to the body to circulate, searching for signs of infection. These circulating cells are not fully mature, but when they encounter an invader, with the help of other immune cells, they change. Most become antibody-producing cells, the final, operational cells of the B cell lineage. A few cells are set aside as memory cells that can rapidly become antibody-producing cells shoul ....B lymphocytes are the antibody-producing cells of the immune system. They are formed in the bone marrow, and are exported to the body to circulate, searching for signs of infection. These circulating cells are not fully mature, but when they encounter an invader, with the help of other immune cells, they change. Most become antibody-producing cells, the final, operational cells of the B cell lineage. A few cells are set aside as memory cells that can rapidly become antibody-producing cells should the same infection occur again. This is the basis of vaccination. The secretion of antibodies into the serum (that can bind to and eliminate an invader anywhere in the body) is the main function of B lymphocytes. This project will study the genes that allow B cells to become antibody-secreting cells (called ASC). We will focus on the gene for Blimp-1, the B lymphocyte-induced maturation protein, which has been called the master regulator of ASC formation. This claim is based largely on circumstantial evidence, and has not been directly tested genetically. We have made a mouse in which the Blimp-1 gene has been altered so that we can disable it in carefully controlled way. Using this knockout mouse, we can directly test the requirement for Blimp-1 in ASC and in other cell types. We will study these animals, using many tests that can accurately measure the behaviour of isolated cells, or the immune responses of the animals. We will examine other genes that are thought to be required for ASC to form or to perform their work, to see if loss of Blimp-1 (a known gene silencer) has impacted on these other genes. In this way, we expect to identify the genetic program that drives a B cell to become a mature ASC. Using this knowledge, we hope eventually to be able to study diseases of ASC in humans (as occur in allergy, asthma, rheumatoid arthritis and leukaemia). This information may also be used to improve the outcome of vaccination.Read moreRead less
Expansion Of TGF-beta-Smad Signaling Network And Intrinsic Epithelial-mesenchymal-endothelial Transition
Funder
National Health and Medical Research Council
Funding Amount
$557,297.00
Summary
The majority of tumor death occurs due to tumor metastasis. Both tumor growth and tumor spread require angiogenesis, which is thought to be driven by tumor but originated from host endothelial cells. Could tumor cells behave and function like endothelial cells? This application aims to detect the transition of adult epithelial cells to endothelial cells through a transient mesenchymal state. Our studies should reveal both the molecular and cellular causes of vasculogenic mimicry, thus establishi ....The majority of tumor death occurs due to tumor metastasis. Both tumor growth and tumor spread require angiogenesis, which is thought to be driven by tumor but originated from host endothelial cells. Could tumor cells behave and function like endothelial cells? This application aims to detect the transition of adult epithelial cells to endothelial cells through a transient mesenchymal state. Our studies should reveal both the molecular and cellular causes of vasculogenic mimicry, thus establishing a new paradigm in understanding tumor growth and metastasis. Such novel molecular understanding will open up new anti-tumor therapeutic opportunities.Read moreRead less
The Role Of The Pro-survival Bcl-2 Family Member A1 In The Development And Sustained Growth Of Lymphomas.
Funder
National Health and Medical Research Council
Funding Amount
$628,459.00
Summary
The death of cells, which is regulated by a complex interaction between cell survival and killer proteins, is an important mechanism to prevent cancer. In this proposal we aim to understand the function of one of the cell survival proteins in cancer development and maintenance. This will help to develop novel therapeutic drugs specifically targeting this cell survival protein, thereby eliminating specifically the cancer cells and minimizing collateral damage of healthy tissues.
Determining The Role Of Rel/NF-kB Transcription Factors In Myeloid Differentiation
Funder
National Health and Medical Research Council
Funding Amount
$500,944.00
Summary
Different types of mature blood cells arise from stem cells in a process involving changes in gene expression that dictate which types of blood cells ultimately develop. A family of gene regulatory proteins called NF-kB transcription factors has been found to control the pattern of gene expression in a particular blood cell precursor called a granulocyte macrophage precursor (GMP) that normally generates two types of mature blood cells called macrophages and neutrophils. In the absence of NF-kB ....Different types of mature blood cells arise from stem cells in a process involving changes in gene expression that dictate which types of blood cells ultimately develop. A family of gene regulatory proteins called NF-kB transcription factors has been found to control the pattern of gene expression in a particular blood cell precursor called a granulocyte macrophage precursor (GMP) that normally generates two types of mature blood cells called macrophages and neutrophils. In the absence of NF-kB proteins, a change in the pattern of gene expression in GMPs leads to an imbalance in production of these two blood cell types that now favours the generation of neutrophils. This work will provide insight into the molecular mechanisms of blood cell development regulated by NF-kB. With disturbances in the balance of blood cell formation representing a hallmark of leukemia, understanding how this process is normally controlled may have important implications for developing therapeutic strategies to combat various types of leukemias.Read moreRead less