Characterisation Of TIA Proteins In RNA Recognition And Stress Granule Formation
Funder
National Health and Medical Research Council
Funding Amount
$566,966.00
Summary
Cells in our body need to be able to respond to stresses such as heat, hypoxia, chemical stress or infection. In this project we investigate the specialized TIA proteins that have the job of protecting RNA in stressed cells. We will investigate the way TIA proteins recognize particular mRNA and form temporary protective clusters. By better understanding this process we will gain insight into the way in which cells are susceptible to damage in diseases including neurodegenerative disease.
How Lipids Affect Signalling Efficiencies In T Cells
Funder
National Health and Medical Research Council
Funding Amount
$472,882.00
Summary
A high fat diet can compromise the function our immune system. This project examines how lipids affect T cells. We propose that T cells from mice on a high fat diet can no longer respond to an immune challenge because the signalling processes that lead to activation are deregulated. We have established a new microscopy technique that allows us to measure the efficiency of signalling processes. We will use this method to identify which lipids contribute the most to T cell deregulation.
Asymmetric Cell Divison In T Cell Development: Consequences For Immunity And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$642,608.00
Summary
Human health depends upon the development of an immune system that can effectively control infection without damaging normal tissue. In this project, we assess a new paradigm by which immune cell development might be controlled, in which an immune cell precursor divides in such a way that its two daughters inherit different molecular constitutents that subsequently regulate the adoption of different cell fate. The likely consequences of this phenomonon on immunity and cancer will be explored.
Targetting The CIB1-sphingosine Kinase Interaction In Oncogenesis
Funder
National Health and Medical Research Council
Funding Amount
$805,034.00
Summary
Sphingosine kinase is a protein involved in cancer development and progression. We have identified that the cancer-inducing activity of sphingosine kinase is controlled by another protein called CIB1 which itself appears involved in causing cancer by deregulating sphingosine kinase. In this study we will examine and target the interaction between sphingosine kinase and CIB1 as a potential therapeutic intervention in cancer.
Regulation Of BRCA1 And APC Tumour Suppressor Functions By Nuclear Export
Funder
National Health and Medical Research Council
Funding Amount
$433,500.00
Summary
Cancer cells are unique, in that their ability to divide and grow is no longer controlled. Moreover, the DNA of cancer cells is less stable, and vital control genes often gain small mutations which culminate in a more aggressive or malignant cancer cell. Cancers from different tissues progress and respond in different ways to treatment, and the eventual development of tailored treatments or therapies will require a detailed understanding of how cancers from different tissues arise. Our laborator ....Cancer cells are unique, in that their ability to divide and grow is no longer controlled. Moreover, the DNA of cancer cells is less stable, and vital control genes often gain small mutations which culminate in a more aggressive or malignant cancer cell. Cancers from different tissues progress and respond in different ways to treatment, and the eventual development of tailored treatments or therapies will require a detailed understanding of how cancers from different tissues arise. Our laboratory studies two proteins, BRCA1 and APC, which are encoded by the genes most often associated with breast and colon cancer, respectively. We have made important discoveries linking the movement and location of these proteins inside the cell with their cancer-causing activity. In this project, we will continue to study how and why APC and BRCA1 move between different compartments inside cancer cells, and how this movement can sometimes signal cancer cells to die. Detailed understanding of these processes is essential for the eventual design of drug, peptide or gene therapies aimed at correcting defects in the expression or localisation of APC or BRCA1 in breast or colon cancer cells, and hopefully provide clues for that magic bullet that specifically targets and kills cancer cells.Read moreRead less
A Tyrosine Phosphatase That Regulates Adherens Junctions, Cell Migration And The Epithelial-mesenchymal Transition
Funder
National Health and Medical Research Council
Funding Amount
$496,500.00
Summary
Cell-cell adhesion which physically glues cells together to form tissues and organs, also controls processes in development, wound healing and cancer progression. I have identified a novel regulator of cell-cell adhesion that regulates cell migration and cell morphology. Since these events are crucial during metastasis (the spread of cancer) and during wound healing, understanding the function of this novel regulator may provide the basis for new approaches to developing therapeutics. Specifical ....Cell-cell adhesion which physically glues cells together to form tissues and organs, also controls processes in development, wound healing and cancer progression. I have identified a novel regulator of cell-cell adhesion that regulates cell migration and cell morphology. Since these events are crucial during metastasis (the spread of cancer) and during wound healing, understanding the function of this novel regulator may provide the basis for new approaches to developing therapeutics. Specifically, in this proposal I aim to further our understanding of the function of this novel regulator in normal physiology and to elucidate how its functions are regulated.Read moreRead less
Regulation Of Hedgehog Signalling Through Intracellular Trafficking Events
Funder
National Health and Medical Research Council
Funding Amount
$220,500.00
Summary
The hedgehog signalling cascade plays a role in forming almost every organ of the body during development of an embryo. Perturbation of the function of key members of this pathway during embryonic development often results in death in utero or severe childhood abnormalities. In addition, disruption to this pathway also results in a range of cancers, most notably the extremely common skin cancer basal cell carcinoma. In this proposal we aim to investigate in detail the regulatory mechanisms which ....The hedgehog signalling cascade plays a role in forming almost every organ of the body during development of an embryo. Perturbation of the function of key members of this pathway during embryonic development often results in death in utero or severe childhood abnormalities. In addition, disruption to this pathway also results in a range of cancers, most notably the extremely common skin cancer basal cell carcinoma. In this proposal we aim to investigate in detail the regulatory mechanisms which operate to ensure that this complex pathway of interacting molecules functions correctly during embryonic development. By understanding how this regulation occurs we will gain valuable insight into how disruption of this pathway results in such a range of disease, as well as into how agents which modulate this pathway may potentially act in a therapeutic setting.Read moreRead less
Competition For Polarity Influences Lymphocyte Signaling And Function
Funder
National Health and Medical Research Council
Funding Amount
$500,460.00
Summary
Infectious diseases caused by viruses and bacteria remain a significant health problem. CD46 is a protein on the surface of human cells that is used by a number of viruses and bacteria to enter and infect host cells. Through binding to the CD46 protein, viruses and bacteria can induce changes in immune cells, such as T lymphocytes, that affect the way our immune system responds to infection. For example, immunosuppression induced by infection with measles virus is the primary cause of the mortal ....Infectious diseases caused by viruses and bacteria remain a significant health problem. CD46 is a protein on the surface of human cells that is used by a number of viruses and bacteria to enter and infect host cells. Through binding to the CD46 protein, viruses and bacteria can induce changes in immune cells, such as T lymphocytes, that affect the way our immune system responds to infection. For example, immunosuppression induced by infection with measles virus is the primary cause of the mortality and morbidity associated with the disease, and is a phenomenon that is poorly understood. However, there is evidence to suggest that the interaction between measles-infected cells with CD46 on the immune cells is partly responsible for the immunosuppression observed. Our laboratory has recently found that binding of CD46 (by antibody or measles antigen) on immune cells provides a signal to the cell to change its polarisation state (the way proteins are distributed within the cell) and impairs their ability to recognize and kill target cells, and become activated. These observations indicate a new paradigm by which competition of receptor signals for polarization determines signalling outcomes and provides a possible mechanism for how pathogens that bind CD46, such as measles, subvert normal immune cell communication and induce immunosuppression. This proposal aims to investigate the mechanisms behind the effect of polarising signals on immune cells, and will specifically use CD46 and measles virus as a model. The outcomes of this study will define new paradigms in lymphocyte biology and dissect the key pathways that underpin how CD46 influences immune outcome in response to infection.Read moreRead less