Role Of Neutrophil Proteases In The Mobilisation Of Haemopoietic Progenitor Cells
Funder
National Health and Medical Research Council
Funding Amount
$318,279.00
Summary
Mobilisation is a procedure consisting in inducing the egress of blood forming cells (haemopoietic stem cells) from the bone marrow, where they normally reside, into the blood. The most common agent to induce mobilisation of haemopoietic stem cell is a cytokine called granulocyte - colony stimulating factor (G-CSF). In recent years, the number of transplantations performed with mobilised blood stem cells has exceeded those performed with bone marrow. Elements contributing to this success have be ....Mobilisation is a procedure consisting in inducing the egress of blood forming cells (haemopoietic stem cells) from the bone marrow, where they normally reside, into the blood. The most common agent to induce mobilisation of haemopoietic stem cell is a cytokine called granulocyte - colony stimulating factor (G-CSF). In recent years, the number of transplantations performed with mobilised blood stem cells has exceeded those performed with bone marrow. Elements contributing to this success have been the simplicity of the procedure (daily injections of a mobilising cytokines such as G-CSF), a more rapid recovery following high dose chemotherapy and transplantation, and lower costs. Despite its common use in clinics, the molecular mechanisms responsible for haemopoietic stem mobilisation following injection of cytokines are still unknown. A large body of experimental data demonstrate the critical role of adhesive interactions between blood forming cells and the bone marrow microenvironment These interactions control the lodgement of blood forming cells in the bone marrow, where they normally reside, and their egress into the blood during mobilisation. Experiments from this laboratory have shown that the mobilisation of blood forming cells that follows the administration of G-CSF, may be the consequence of the accumulation in the bone marrow of a class of leukocytes called neutrophils. These neutrophils subsequently release within the bone marrow a set of enzymes that specifically cleave a cell adhesion molecule expressed in the bone marrow, and therefore disrupt the adhesive interactions between the bone marrow and the blood forming cells resulting in their egress in the blood. This proposal aims to demonstrate this hypothesis and to provide tools to predict and improve the levels of mobilisation that can be achieved with healthy donors and cancer patients.Read moreRead less
Application Of Novel Sutureless Technology For Eye Surgery
Funder
National Health and Medical Research Council
Funding Amount
$342,623.00
Summary
Corneal disease and trauma are major causes of blindness. Corneal trauma requires surgical repair and vision lost from disease may be restored with corneal transplantation. In both cases sutures are used and can have significant complications. Application of a new surgical adhesive for cost-effective, quick and easy corneal surgery with enhanced wound healing is an innovative solution to a major problem in public health with manifold implications in the field of eye surgery
Inhaled Mannitol For The Treatment Of Mucociliary Dysfunction- Its Effect And Mechanisms On The Clearance Of Mucus
Funder
National Health and Medical Research Council
Funding Amount
$324,100.00
Summary
Excessive secretion of mucus is a problem in asthma and bronchiectasis. Mucus is secreted from submucosal glands and goblet cells as a result of inflammation present in the airways. Excessive mucus is not easily transported by the cilia (hair like structures) in the airways and accumulation leads to productive cough and to recurrent infections. Cough is a secondary mechanism to clear mucus when the mucociliary system fails. Cough generates high airflow rates that can move mucus. However, patient ....Excessive secretion of mucus is a problem in asthma and bronchiectasis. Mucus is secreted from submucosal glands and goblet cells as a result of inflammation present in the airways. Excessive mucus is not easily transported by the cilia (hair like structures) in the airways and accumulation leads to productive cough and to recurrent infections. Cough is a secondary mechanism to clear mucus when the mucociliary system fails. Cough generates high airflow rates that can move mucus. However, patients with moderately to severely obstructed airways cannot generate high airflow rates. In addition, cough becomes very inefficient in moving mucus if it is sticky and viscous. As the cilia cannot transport large quantities of mucus the best approach is to alter the properties of mucus that would facilitate cough clearance. Increased hydration of mucus could change its surface and rheological properties. Increased hydration can be achieved by the osmotic movement of water into the airway lumen in response to inhaling an aerosol of salt or sugar. We have evidence using radioactive aerosols, that mannitol, a sugar, increases clearance of mucus acutely in patients with excessive secretions. We also have new evidence that mannitol taken daily over two weeks increases the health status in patients with bronchiectasis. Further we now have preliminary data demonstrating that mannitol changes the surface properties of mucus. We aim to study the properties of mucus in relation to its clearance in vivo in humans. This has not been done before. If we can demonstrate that changes in clearance in response to mannitol relate to the changes in mucus then we will be able to easily evaluate current treatments and doses for patients with excessive secretions and to identify new treatments. Mannitol is a potential treatment for diseases with excessive secretions and understanding of how it works will hopefully lead to better outcomes for patients.Read moreRead less
Several members of the Flaviviridae family are major pathogens of humans including dengue (DEN), yellow fever (YF), tick-borne encephalitis (TBE), Murray valley encephalitis (MVE), Japanese encephalitis (JE), and hepatitis C virus (HCV). An Australian flavivirus Kunjin (KUN), however, appears to be naturally attenuated and does not cause an overt disease in humans. In contrast, genetically and antigenically closely related to KUN, New York strain of West Nile virus (NY WN) has already caused ~50 ....Several members of the Flaviviridae family are major pathogens of humans including dengue (DEN), yellow fever (YF), tick-borne encephalitis (TBE), Murray valley encephalitis (MVE), Japanese encephalitis (JE), and hepatitis C virus (HCV). An Australian flavivirus Kunjin (KUN), however, appears to be naturally attenuated and does not cause an overt disease in humans. In contrast, genetically and antigenically closely related to KUN, New York strain of West Nile virus (NY WN) has already caused ~500 deaths and over 20,000 registered infections since its emergence in North America in 1999, including 223 deaths and 9122 infections in 2003 alone. Recent studies with DEN indicated that flaviviruses may interfere with early steps of IFN-signalling pathway. The type I Interferon (IFN) response is the first line of defence against viral infections and many viruses have developed different strategies to counteract this response in order to ensure their survival in the infected host. In this grant we seek to exploit our extensive understanding of the molecular biology of KUN virus and the contrasting behaviour of KUN and NY WN viruses to gain an understanding of the role of flavivirus-mediated suppression of host anti-viral IFN response in virus-host relationships and its importance in determining virus virulence.Read moreRead less
SULT4A1 is not a sulfotransferase, but a sulfotransferase inhibitor. It forms high affinity heterodimers with other sulfotransferases via a conserved dimerisation site in its carboxyl terminus attenuating catalytic activity. Consequently, it is important for the metabolism of numerous important molecules including estrogens, thyroid hormones, neurotransmitters and many therapeutic agents.