Epithelial cell surface mucins are large complex proteins found on the surface of all mucosal epithelial tissues, for example in the respiratory, gastrointestinal, reproductive and urinary tracts. Most bacterial and viral pathogens enter the body via mucosal tissues. We have recently demonstrated that mucin proteins are a vital component of initial defence against mucosal pathogens. Defects in these proteins probably predispose individuals to common chronic infective and inflammatory diseases. T ....Epithelial cell surface mucins are large complex proteins found on the surface of all mucosal epithelial tissues, for example in the respiratory, gastrointestinal, reproductive and urinary tracts. Most bacterial and viral pathogens enter the body via mucosal tissues. We have recently demonstrated that mucin proteins are a vital component of initial defence against mucosal pathogens. Defects in these proteins probably predispose individuals to common chronic infective and inflammatory diseases. The proposed research aims to explore the mechanims by which mucins protect from infection, with a focus on the gastrointestinal tract. Gastrointestinal infections remain one of the major causes of mortality in children in undeveloped countries. We believe that these proteins are a critical hereto unrecognised element of immunity and that the proposed studies will have broad significance for treatment and prevention of infection. Additionally, understanding the function of mucins could lead to the development of new drugs to treat epithelial inflammation such as that seen in inflammatory bowel diseases and respiratory diseases such as asthma and cystic fibrosis.Read moreRead less
This work will analyse how cells, the building blocks of tissues, are organized together to form functioning organs. It focuses on the adhesion molecules that allow cells to recognize one another, which cooperate with the internal skeleton of cells to link them together. We aim to understand how these cellular systems work normally and how they are targeted to disrupt tissue integrity in diseases like cancer and inflammation.
Cortactin: Molecular Regulation Of Cadherin Activity And Epithelial Morphogenesis.
Funder
National Health and Medical Research Council
Funding Amount
$239,250.00
Summary
Interactions between cells and their neighbouring cells control many important processes in the body. The adhesion molecule E-cadherin is a major protein that controls how cells interact with one another in many epithelial tissues (e.g. breast, lung, gut). These tissues are the source of many common diseases, particular cancer and inflammation. E-cadherin is essential for these tissues to form normally, and loss of E-cadherin function contributes to disease in these tissues (especially common ca ....Interactions between cells and their neighbouring cells control many important processes in the body. The adhesion molecule E-cadherin is a major protein that controls how cells interact with one another in many epithelial tissues (e.g. breast, lung, gut). These tissues are the source of many common diseases, particular cancer and inflammation. E-cadherin is essential for these tissues to form normally, and loss of E-cadherin function contributes to disease in these tissues (especially common cancers, such as breast and lung). Understanding how E-cadherin controls normal cell function in these tissues will therefore provide key insights into how disease arises. In this study we will investigate how a protein which binds to E-cadherin, cortactin, contributes to the biological effect of E-cadherin in supporting tissue architecture. Understanding the fundamental elements of how cortactin works with E-cadherin will provide invaluable information into how cells recognize one another in health, and fail to adequately recognize each other in common diseases.Read moreRead less
MicroRNAs are small molecules that modulate the expression of most genes and so affect nearly every biological process and pathology although, they were only discovered in humans less than 10 years ago. The bottleneck in discovering the functions of miRNAs is in identifying their molecular targets, the majority of which remain unknown. We aim to comprehensively identify direct target genes of epithelial-specific microRNAs and to confirm a number of them by gene target validation approaches.
Role Of The MiR-200 Target Quaking In Alternative Splicing During EMT And Cancer Progression
Funder
National Health and Medical Research Council
Funding Amount
$443,160.00
Summary
The spread of cancer to other organs involves cancer cells changing to a more aggressive state and is a major cause of cancer related death. MicroRNAs are a class of genes that control whether cancer cells become more aggressive by regulating other genes. In this project we will examine the function of a new microRNA target which controls the cancer cell aggression. The outcome will be a better understanding of how cancers spread and the identification of new therapeutic targets.
Microenvironmental Regulation Of The Tissue Regenerative Capacity Of Keratinocyte Stem Cells And Their Progeny.
Funder
National Health and Medical Research Council
Funding Amount
$391,762.00
Summary
The protective outer layers of the skin known as the epidermis belongs to a group of tissues in the body that are turning over at a rapid rate. The majority ofepidermal cells have a lifespan of just 2-3 weeks, and are shed as mature cells from the skin's surface. These cells are replaced by continuous cell regeneration which is dependent on growth factors and adhesive molecules (and other signals). It has recently come to light that the connective tissue of the skin i.e. the dermis, which lies d ....The protective outer layers of the skin known as the epidermis belongs to a group of tissues in the body that are turning over at a rapid rate. The majority ofepidermal cells have a lifespan of just 2-3 weeks, and are shed as mature cells from the skin's surface. These cells are replaced by continuous cell regeneration which is dependent on growth factors and adhesive molecules (and other signals). It has recently come to light that the connective tissue of the skin i.e. the dermis, which lies directly below the epidermal cells has a critical role in providing some of these factors required for their growth and maturation. Indeed, it is becoming increasingly clear that the epidermal and dermal cells co-operate to regulate epidermal proliferation and maturation. Recent work from our laboratory has shown that a newly recognised adhesive protein laminin-10 may be produced as the result of such co-operation and that it stimulates the growth of both normal and tumour epidermal cells. We have also recently identified an interesting subset of dermal cells that may have a role in promoting the growth of the epidermal cells. Thus, the aims of the proposed stuides are to investigate the role of laminin-10 and this specific dermal cell subset in epidermal proliferation and maturation. These studies may also provide an insight into the role of these factors in skin cancers.Read moreRead less
Extended Nuclear Deterrence and the Restraint of Non-Nuclear Allies: Material Cooperation and Strategic Dialogue. Extended nuclear deterrence is central to the security commitments offered by the US to its European and Asian allies, but little is known about why non-nuclear allies ask for the nuclear assurances they do and how they influence the assurances they ultimately receive. Using the lenses of intra-alliance bargaining, the role and composition of assurances, and domestic and internationa ....Extended Nuclear Deterrence and the Restraint of Non-Nuclear Allies: Material Cooperation and Strategic Dialogue. Extended nuclear deterrence is central to the security commitments offered by the US to its European and Asian allies, but little is known about why non-nuclear allies ask for the nuclear assurances they do and how they influence the assurances they ultimately receive. Using the lenses of intra-alliance bargaining, the role and composition of assurances, and domestic and international interactions, the project investigates why non-nuclear allies often seek modest extended nuclear deterrence guarantees when they could push for more ambitious commitments. The outcomes of the project will advance theoretical understanding of alliances, assurance and nuclear strategy, with direct relevance to foreign policy and nuclear disarmament.Read moreRead less
Microtubule Capture By E-cadherin: A Novel Mechanism For Dynamic Cell-cell Adhesion.
Funder
National Health and Medical Research Council
Funding Amount
$439,500.00
Summary
This project studies the molecular mechanisms responsible for holding cells together in normal tissues. Such cell-to-cell adhesion is mediated by the cadherin family of molecules, which reside at the surfaces of cells. Cadherins allow cells to recognize one another and, upon recognition, adhere to one another. By this means populations of individual cells can be linked together into cohesive populations (i.e. the tissues or organs of the body). The importance of cadherin adhesion is exemplified ....This project studies the molecular mechanisms responsible for holding cells together in normal tissues. Such cell-to-cell adhesion is mediated by the cadherin family of molecules, which reside at the surfaces of cells. Cadherins allow cells to recognize one another and, upon recognition, adhere to one another. By this means populations of individual cells can be linked together into cohesive populations (i.e. the tissues or organs of the body). The importance of cadherin adhesion is exemplified by the well-documented observation that disruption of cadherin adhesion contributes to many important diseases, including inflammation of epithelia and cancers. Thus understanding the mechanisms by which cadherins hold cells together is necessary for us to understand the molecular basis of commondisease. It has long been known that cadherins work in cooperation with elements within the cell, called the cytoskeleton. My lab has recently made the novel discovery that microtubules, specific components of the cytoskeleton, can regulate the functionof cadherin adhesion molecules. Inparticular, microtubules appear to affect how cadherins can participate in dynamic cell processes necessary for cells to be properly organized in tissues. In this project we will probe the molecular mechanisms responsible for this effect of microtubules. The information obtained will provide important new insights into how dynamic cadherin adhesion is controlled, to help our understanding of the cellular mechanisms that couple cells into tissues, and how they may be disrupted in diesase.Read moreRead less
Idiopathic pulmonary fibrosis (IPF) is a fatal disease of unknown cause which is unresponsive to current therapy. This study builds on recent work by this group highlighting the importance of a cell signalling molecule called STAT3 in the development of this disease. In particular, two cell types that utilise STAT3 signalling, epithelial cells and B cells, will be examined to see if blocking their STAT3 responses could be a novel therapeutic approach.