Role Of Zinc In The Respiratory Epithelium And Asthma
Funder
National Health and Medical Research Council
Funding Amount
$224,250.00
Summary
This project will use a panel of Zinquin-derived Zn fluorophores developed in our laboratory, as well as probes for the mammalian family of vesicular ZnT transporters, to carry out a study of the normal physiology of Zn in the respiratory system and potential abnormalities of this in patients with chronic inflammatory respiratory disease (asthma, COPD, chronic smoking). Chronic inflammatory diseases of the respiratory tract affect a significant proportion of the Australian community. For example ....This project will use a panel of Zinquin-derived Zn fluorophores developed in our laboratory, as well as probes for the mammalian family of vesicular ZnT transporters, to carry out a study of the normal physiology of Zn in the respiratory system and potential abnormalities of this in patients with chronic inflammatory respiratory disease (asthma, COPD, chronic smoking). Chronic inflammatory diseases of the respiratory tract affect a significant proportion of the Australian community. For example, asthma affects 12% of adults and amongst these, 15% waken weekly or more often with their asthma while 6% are hospitalized annually. There is a need to understand the basic mechanisms underlying these diseases so that new strategies can be developed to modify bronchocondtriction and inflammation. The project will provide new knowledge concerning the physiology of Zn in the respiratory epithelium and interactions between Zn deficiency and oxidants on injury in the respiratory tract. The usefulness of easily accessible nasal epithelial cells as a measure of Zn and Zn transporter levels deeper in the respiratory tract will be assessed. The project encompasses a number of fields and utilizes in vitro cellular and animal models, as well as tissues from human subjects.Read moreRead less
The Role Of Cbl Proteins In Mast Cell Signalling And Function.
Funder
National Health and Medical Research Council
Funding Amount
$239,250.00
Summary
Allergies such as asthma are caused by cells known as mast cells and basophils. These cells cause allergies because they possess pre-formed granules that contain mediators of allergic reactions, such as histamine, which are released when the cells are activated by allergens. Understanding how this activation occurs, and the biochemical mechanisms that allow the release of allergic mediators, are important steps towards identifying ways to intervene and control allergic responses. The key event t ....Allergies such as asthma are caused by cells known as mast cells and basophils. These cells cause allergies because they possess pre-formed granules that contain mediators of allergic reactions, such as histamine, which are released when the cells are activated by allergens. Understanding how this activation occurs, and the biochemical mechanisms that allow the release of allergic mediators, are important steps towards identifying ways to intervene and control allergic responses. The key event that activates the release of allergic mediators is the binding of environmental allergens to a particular type of antibody called IgE that can bind to a specific receptor on the surface of mast cells and basophils. These IgE-bound receptors transmit strong biochemical signals into the cell which causes a cascade of events resulting in many proteins being biochemically modified and recruited to sites of functional activity. One group of proteins, known as tyrosine kinases, are at the front line of this cascade and they function by targeting and modifying a wide range of other proteins so they become functionally active. Indeed if it were not for tyrosine kinases there would be no signal leading to degranulation of mast cells and basophils and therefore no allergic reactions. Therefore if it were possible to regulate the activity of tyrosine kinases we would be able to control the severity of allergic reactions. For many years we have been studying a protein called Cbl that functions in cells to negatively regulate many tyrosine kinases, including those present in mast cells and basophils. In this grant we aim to investigate whether by deregulating Cbl function in mast cells, derived from mice with mutated forms of Cbl, we can change the activity of tyrosine kinases and thus alter the magnitude of allergic responses. This will determine whether Cbl is candidate target protein for controlling allergies.Read moreRead less