Escape From BRAF-induced Human Melanocyte Senescence In The Genesis Of Melanoma
Funder
National Health and Medical Research Council
Funding Amount
$601,776.00
Summary
Melanoma is the most lethal form of skin cancer and activation of the MAPK growth pathway is a crucial step in the initiation of this cancer, but alone is insufficient, as most melanocytes with active MAPK exist in a growth arrested state. The mechanisms responsible for arresting melanocytes in the presence of active MAPK will be investigated. This project will discover why some melanocytes develop into melanomas whereas most do not.
Role Of PAK1 In Colorectal Cancer Growth And Metastasis Regulated By Gastrins
Funder
National Health and Medical Research Council
Funding Amount
$460,070.00
Summary
Increased level of PAK1(a protein kinase) was associated with the progression of colorectal (large bowel) cancer (CRC). Gastrin peptides are growth factors responsible for CRC development. The objective of this project is to determine the role of PAK1 in the regulation of CRC growth and metastasis by gastrin peptides. We will use cell culture, animal models and clinical samples in the program. A successful outcome will lead to the development of new CRC therapies such as inhibitors of PAK1.
The Structural Basis Of Cytokine Signalling Inhibition
Funder
National Health and Medical Research Council
Funding Amount
$239,473.00
Summary
Cell-cell communcation is vital for the correct functioning of the body. Cells need to be told the correct time to divide, to produce certain enzymes or chemicals, to migrate and also when to apoptose, or die. Cells receive these signals through the binding of small soluble proteins called cytokines. Cytokines bind to specialized receptors on the surface of the cell and initiate an intracellular signaling cascade that passes the correct message to the nucleus. It is important that cells react to ....Cell-cell communcation is vital for the correct functioning of the body. Cells need to be told the correct time to divide, to produce certain enzymes or chemicals, to migrate and also when to apoptose, or die. Cells receive these signals through the binding of small soluble proteins called cytokines. Cytokines bind to specialized receptors on the surface of the cell and initiate an intracellular signaling cascade that passes the correct message to the nucleus. It is important that cells react to these protein messengers however it is just as vital that they don't overreact. Many human diseases, especially inflammatory diseases such as rheumatoid arthritis and type II diabetes, are due to aberrant cytokine signaling. To ensure this doesn't occur, cells have evolved a mechanism to quickly switch off the signaling cascade after it has started. This mechanism involves an entire family of proteins, the Suppressors of Cytokine Signalling (SOCS) family. These proteins can act via two distinct mechanisms. The first is to directly block the JAK-STAT proteins, proteins that initiate the intracellular part of the signaling cascade. The second mechanism has been less well studied, it involves the SOCS proteins upregulating the degradation of signaling intermediates. The SOCS proteins can do this through the action of a 40 residue domain called the SOCS box. The SOCS box directs proteins bound to other domains of the SOCS proteins to be degraded by interacting with a complex called an E3 ubiquitin ligase. This project involves determining the three-dimensional atomic structure of the SOCS-E3 ligase interaction and investigating biophysical aspects of the interaction. This information will lead to a fuller understanding of the mechanism of signaling inhibition and will provide information crucial to the design of SOCS inhibitors. Such inhibitors would be therapeutically important in the treatment of a number of human diseases such as cancer, arthritis and type II diabetes.Read moreRead less
Regulation Of Nuclear Import Of Viral Oncoproteins And Transcription Factors By Protein-protein Interactions
Funder
National Health and Medical Research Council
Funding Amount
$650,383.00
Summary
The present application examines the controls that exerted over proteins that localize in the nucleus of eukaryotic cells. This relates relates integrally to cellular processes such as growth, development and oncogenesis. This research area is not represented elsewhere in Australia, and the particular experimental strategies to approach the problem, revolving around the use of special quantitative microscopic techniques are novel internationally. One part of the application seeks to examine tran ....The present application examines the controls that exerted over proteins that localize in the nucleus of eukaryotic cells. This relates relates integrally to cellular processes such as growth, development and oncogenesis. This research area is not represented elsewhere in Australia, and the particular experimental strategies to approach the problem, revolving around the use of special quantitative microscopic techniques are novel internationally. One part of the application seeks to examine transport within the cell of complexes of interacting proteins, rather than single proteins, under as close as possible to physiologically relevant conditions. This will be truly unique, and of great importance to our comprehension of eukaryotic cell function. This application examines particular types of negative control over protein nuclear localization. Since many proteins show such regulation, and in particular important proteins controlling cell growth and division, the results are fundamentally important to our understanding of how cells function in general. Further, this understanding may be applied in disease situations, such as viral-mediated oncogenesis. In the work we propose to do, viral proteins with functions relating to cancer will be examined in detail, as well as a cellular protein which is recognised by them - the tumor suppressor Rb. We intend to examine several viral oncoproteins which target Rb; one is a protein (E7) from the Human Papilloma Virus which has been frequently associated with cervical carcinomas and other cancers. Accordingly, the results may have direct application to viral-induced cancer, and our work may lead to understanding of the regulation of protein transport to the nucleus. This may thus afford a new approach at the pharmacological level to combat transformation.Read moreRead less
Myofibroblast differentiation: from haemopoietic cells to smooth muscle. Until very recently the ability of adult cells with specific differentiated functions to re-differentiate for another function was thought to be extremely limited. However we have shown that cells ultimately derived from the bone marrow can differentiate into fibroblasts, then into myofibroblasts and then into smooth muscle cells. This project will build on these unique findings and determine the molecular mechanisms cont ....Myofibroblast differentiation: from haemopoietic cells to smooth muscle. Until very recently the ability of adult cells with specific differentiated functions to re-differentiate for another function was thought to be extremely limited. However we have shown that cells ultimately derived from the bone marrow can differentiate into fibroblasts, then into myofibroblasts and then into smooth muscle cells. This project will build on these unique findings and determine the molecular mechanisms controlling this process. We hypothesise that the local environment of a cell is critical and will involve a combination of particular extracellular matrix and growth factors as well as mechanical tension and the presence of other cell types.Read moreRead less
Factors involved in release of cytochrome c from mitochondria during apoptosis. Mitochondria are energy-producing organelles that activate cell death by selective release of constituents, notably cytochrome c, which participate in death-signalling cascades. I aim to probe such mitochondrial release mechanisms in intact cells, by focussing on features of translocated proteins relevant to release. Cultured mouse cells lacking cytochrome c are uniquely suited to these studies. A series of cytochrom ....Factors involved in release of cytochrome c from mitochondria during apoptosis. Mitochondria are energy-producing organelles that activate cell death by selective release of constituents, notably cytochrome c, which participate in death-signalling cascades. I aim to probe such mitochondrial release mechanisms in intact cells, by focussing on features of translocated proteins relevant to release. Cultured mouse cells lacking cytochrome c are uniquely suited to these studies. A series of cytochrome c derivatives will be engineered in elongated or aggregated forms and their release studied (including interactions with putative release machinery components) following death-signal activation. The project will elucidate a central mechanism in the cell death process, highly significant in many biological contexts.Read moreRead less
Investigating The Physiological And Biochemical Role Of SOCS5 In The Immune System
Funder
National Health and Medical Research Council
Funding Amount
$405,940.00
Summary
Asthma affects millions of people worldwide and is a complex inflammatory disease of the lung. Asthma manifests as recurrent episodes of wheezing, breathlessness, chest tightening, and coughing. Three key proteins called; interleukin 4 (IL-4), interleukin 13 (IL-13) and interleukin 5 (IL-5) are produced by a subset of white blood cells (T helper cells; Th2) and are thought to be responsible for the asthma response. Normally these proteins act to coordinate the body s immune defence against paras ....Asthma affects millions of people worldwide and is a complex inflammatory disease of the lung. Asthma manifests as recurrent episodes of wheezing, breathlessness, chest tightening, and coughing. Three key proteins called; interleukin 4 (IL-4), interleukin 13 (IL-13) and interleukin 5 (IL-5) are produced by a subset of white blood cells (T helper cells; Th2) and are thought to be responsible for the asthma response. Normally these proteins act to coordinate the body s immune defence against parasite infection. In other words, asthma is thought to arise through inappropriate IL-4 and IL-13 activity in the absence of a parasite infection. Extra IL-13 is commonly found in the lungs of asthmatics and is thought to help trigger asthma attacks. IL-13 is a validated target for drugs that could be used in the treatment of asthma. The SOCS genes were discovered in our laboratory and by genetically deleting the genes in mice we have demonstrated a critical role for SOCS1, SOCS2 and SOCS3 in regulating the immune response and the action of growth hormone. My hypothesis is that SOCS5 is an important physiologic regulator of the asthma response. This proposal will investigate the basic biochemical processes underlying the regulation of IL-4 and IL-13 action and the relationship to development of asthma and immune disease. I plan to induce asthma attacks in mice that lack the genes for SOCS4 and SOCS5. If the severity of the attacks is greater in the absence of these proteins this will indicate that SOCS4 and-or SOCS5 are important negative regulators of IL-4 and IL-13. This has the potential to open up a completely new strategy for the development of drugs that could be used in the prevention and treatment of asthma.Read moreRead less
Identification of Proteins that Regulate Apoptosis Through Interaction With IAPS. Apoptosis is the process by which multicellular organisms eliminate unwanted cells. Identifying proteins involved in cell death regulation is central to our understanding of disease states arising from aberrations in this process. The mammalian protein DIABLO, promotes cell death by interacting with and antagonising inhibitor of apoptosis proteins (IAPS). Given the existence of several IAP regulatory proteins (IRPs ....Identification of Proteins that Regulate Apoptosis Through Interaction With IAPS. Apoptosis is the process by which multicellular organisms eliminate unwanted cells. Identifying proteins involved in cell death regulation is central to our understanding of disease states arising from aberrations in this process. The mammalian protein DIABLO, promotes cell death by interacting with and antagonising inhibitor of apoptosis proteins (IAPS). Given the existence of several IAP regulatory proteins (IRPs) in insects, other mammalian IRPs probably also exist. These may be of equal importance in regulating apoptosis, especially in tissues where DIABLO is not expressed. The main aim of the proposed study is to idenitify and characterise other IRPs in mammalian cells.Read moreRead less