Mechanisms Of Protease-activated Receptor-2-mediated Bronchoprotection
Funder
National Health and Medical Research Council
Funding Amount
$354,758.00
Summary
The incidence of asthma continues to increase globally, yet there have been few real therapeutic advances. Our research, however, has recently uncovered a novel mechanism that protects the airways from inflammatory diseases like asthma. We have found that the layer of cells that line the airways - the epithelium - acts as a detector of early inflammatory events and releases anti-inflammatory substances. The lungs achieve this level of protection via 'sensor' molecules called receptors which are ....The incidence of asthma continues to increase globally, yet there have been few real therapeutic advances. Our research, however, has recently uncovered a novel mechanism that protects the airways from inflammatory diseases like asthma. We have found that the layer of cells that line the airways - the epithelium - acts as a detector of early inflammatory events and releases anti-inflammatory substances. The lungs achieve this level of protection via 'sensor' molecules called receptors which are located in the epithelium. In the case of our discovery, these receptors are called protease-activated receptors (PARs) to highlight the unique manner in which they are turned on or activated by enzymes called proteases. We have discovered that the epithelium of the lungs stores these enzymes and probably releases them during the inital stages of infection. Once released, these enzymes are detected by PARs on epithelial cells which then release substances that inhibit multiple inflammatory pathways. This mechanism protects the airways from effects that make breathing difficult, as in asthma. We have confirmed that this system provides protection in the airways of intact animals. The purpose of this projects outlined in this application is to examine the effects of activating one PAR, PAR2, on several processes in the lung, in order to characterise the individual events and processes that underlie the protective response. These studies will enable us to determine whether synthetic compounds that activate PAR2 are potential novel compounds for the treatment of diseases like asthma.Read moreRead less
Modulation Of Asthmatic Airway Inflammation By Activation Of Epithelial Proteinase Activated Receptors
Funder
National Health and Medical Research Council
Funding Amount
$188,912.00
Summary
Children and adults feel the symptoms of asthma because their airways close up too easily. We have discovered a new mechanism that the healthy lung uses to keep airways open. The epithelial cells which line the airway release an enzyme that cuts of a small part of another protein, called a PAR receptor, that sits on the same cell. When this happens the epithelial cell releases relaxing substances from their lower surface. The relaxing substances keep the airways open. This grant application is d ....Children and adults feel the symptoms of asthma because their airways close up too easily. We have discovered a new mechanism that the healthy lung uses to keep airways open. The epithelial cells which line the airway release an enzyme that cuts of a small part of another protein, called a PAR receptor, that sits on the same cell. When this happens the epithelial cell releases relaxing substances from their lower surface. The relaxing substances keep the airways open. This grant application is designed to test whether the relaxing system also stops the airways from developing inflammation. If the relaxing system does this we will be able to use the knowlege we have that lets us activate the PAR receptors artificially to design new types of drugs. These drugs would be better than existing asthma drugs because they would prevent inflammation and relax the airways at the same time. These drugs could also be useful in other lung diseases such as chronic bronchitis.Read moreRead less