Discovery Of Novel T Cell Oncogenes By Using A Functional Retroviral CDNA Library Screen.
Funder
National Health and Medical Research Council
Funding Amount
$692,470.00
Summary
T cells mature in an organ called the thymus which is located on top of the heart. Blood borne T cell precursors enter the thymus after being resident in the bone marrow. T cell leukaemia is a disease where a blood cell that is committed to becoming a T cell is blocked from maturing into a functional cell. Instead, the leukaemic immature T cell uncontrollably divides to make endless non-functional copies of itself. As a result, normal functional T cells are outcompteted and the immune system is ....T cells mature in an organ called the thymus which is located on top of the heart. Blood borne T cell precursors enter the thymus after being resident in the bone marrow. T cell leukaemia is a disease where a blood cell that is committed to becoming a T cell is blocked from maturing into a functional cell. Instead, the leukaemic immature T cell uncontrollably divides to make endless non-functional copies of itself. As a result, normal functional T cells are outcompteted and the immune system is crippled. Patients generally die due to opportunistic infection. The molecular causes of T cell leukaemia are slowly being discovered. Up to 50% of all human T cell leukaemias overexpress SCL-TAL-1. Other T cell leukaemia-causing genes (oncogenes) include Ras and Notch. Current leukaemia treatments include chemotherapy and bone marrow transplants but even these fail ~30% of the time. Consequently, all T cell oncogenes need to be discovered so that disease-specific treatments can be generated. This proposal will utlise a functional retroviral cDNA library screen to uncover novel T cell lineage commitment genes and T cell oncogenes. This will be accomplished by constructing a coloured [GFP] cDNA library (a library of genes) that will be transfected (inserted) into immature T cells that cannot develop down the T cell pathway owing to the lack of a crucial gene (Rag-1). The T cell oncogene Ras and the T cell lineage commitment gene Notch can move cells past the Rag-1 block. If there is a gene in the cDNA library that can compensate for the lack of Rag-1 and allow the cells to mature we will detect it using high speed flow cytometryic cell sorting (like sieving weevils from flour very quickly). Once we find this cell we will isolate the gene using the colour tag. The potential oncogenes uncovered will provide the foundation for next generation drug development that targets each leukaemia based on its cause.Read moreRead less
The Function Of Transcription Factor SCL In T Cell Development.
Funder
National Health and Medical Research Council
Funding Amount
$504,750.00
Summary
SCL is a gene which is abnormally expressed in a large percentage of human T cell leukaemias. Mouse models that increase SCL levels have demonstrated that T cell maturation is abnormally affected by SCL. Thus, providing a clue as to how T cell leukemias arise. By utilising recombinant DNA technology we are now able to control SCL levels in T cell maturation. We can either increase the level of SCL using pharmacological reagents or we can genetically remove SCL from maturing T cells. This double- ....SCL is a gene which is abnormally expressed in a large percentage of human T cell leukaemias. Mouse models that increase SCL levels have demonstrated that T cell maturation is abnormally affected by SCL. Thus, providing a clue as to how T cell leukemias arise. By utilising recombinant DNA technology we are now able to control SCL levels in T cell maturation. We can either increase the level of SCL using pharmacological reagents or we can genetically remove SCL from maturing T cells. This double-edged approach will allow us to monitor the effects of SCL on maturing T cells with a precision that has never previously been achieved. Results from this approach will provide new insights into how T cell leukaemia develops and provide the foundation for new rational based treatments.Read moreRead less
T-follicular Helper Cell Subsets That Induce Protective Anti-Plasmodium Falciparum Antibodies
Funder
National Health and Medical Research Council
Funding Amount
$456,262.00
Summary
Malaria claims at least half a million lives each year, the majority of them in children under the age of 5 years. In order to development effective vaccines malaria it is critically important that we increase our understanding of the key mechanisms governing the induction of protective immune responses in naturally exposed populations. This project will examine the role of one important cell subset - T-follicular helper cells - in the development of immunity against malaria.
Determining The Role Of DOCK8 In CD4+ T And B Cell Differentiation And Its Implications On Autosomal Recessive Hyper IgE Syndrome (AR-HIES)
Funder
National Health and Medical Research Council
Funding Amount
$512,600.00
Summary
Autosomal recessive hyper IgE (AR-HIES) syndrome due to mutations in DOCK8 is a rare primary immunodeficiency whereby patients present with susceptibility to severe and recurrent viral infections as well as an increased risk of developing cancer, severe food and environmental allergies, and atopic disease characterised by hyper IgE and extreme eosinophilia. This grant will investigate how abnormal DOCK8 function in CD4+ T cells and B cells contributes to disease pathogenesis in AR-HIES patients.
CD4+ T Cell-independent Immunity Against Salmonellae
Funder
National Health and Medical Research Council
Funding Amount
$550,226.00
Summary
Salmonella typhimurium is an important pathogen in both developed and developing countries where it causes significant HIV-linked morbidity. There is a pressing need to understand how immunity might be established against this organism that will function when the patient is immunocompromised either through age or through a comorbidity like HIV.
Targeting CD4-positive Cells For Anti-HIV Gene Therapy
Funder
National Health and Medical Research Council
Funding Amount
$356,646.00
Summary
Treatment of HIV early following infection is thought to be important for maximising the quality of life of patients. Conventional therapy has had some success in early intervention but resistance invariably develops. This application proposes to develop a gene therapy approach to elimiate HIV infected cells by introducing a suicide gene into those cells that harbor the virus. The advantage of this approach is the limited toxicity that is associated with gene therapies as well as the ability to ....Treatment of HIV early following infection is thought to be important for maximising the quality of life of patients. Conventional therapy has had some success in early intervention but resistance invariably develops. This application proposes to develop a gene therapy approach to elimiate HIV infected cells by introducing a suicide gene into those cells that harbor the virus. The advantage of this approach is the limited toxicity that is associated with gene therapies as well as the ability to target specific cell-types. It is proposed to genetically modify a strain of adenovirus to introduce a gene that will kill cells that it infects that also contain HIV. This is a novel approach and potentially may be an important treatment in the future. Anti-HIV gene therapy may also be useful in addition to the more conventional treatments.Read moreRead less