Scarring And Angiogenesis In The Airway Wall In Smoking And COPD: Links Between Inflammation And Remodelling
Funder
National Health and Medical Research Council
Funding Amount
$361,614.00
Summary
Smoking damages airways to produce scarring and new blood vessel growth resulting in airway narrowing, so-called COPD. Details of these processes are poorly understood. We will analyse airway biopsies taken from smokers, to dissect out the linkages between airway damage, airway inflammation, structural remodelling, and clinical changes. We will investigate the effects on these processes of: 1) inhaled corticosteroid; and 2) smoking cessation over 3 and 12 months.
The Cardiomyocyte Mineralocorticoid Receptor Plays A Critical Role In Cardiac Disease.
Funder
National Health and Medical Research Council
Funding Amount
$613,477.00
Summary
Drugs that block the mineralocorticoid receptor (MR), which responds to adrenal hormones, protect against heart disease and hypertension. We have shown that this effect is in part due to MR blockade in heart muscle cells. This novel finding is being explored further to understand the precise role of the MR in heart muscle cells in normal physiology and in disease. An understanding of the role of the MR in different tissues will enable development of tissue specific treatments for heart disease.
The Relationship Between Vascular Remodelling And Mast Cells In Chronic Asthma
Funder
National Health and Medical Research Council
Funding Amount
$353,253.00
Summary
It is known that the airwalls of asthmatics have increased numbers of small blood vessels which can contribute to poor lung function in asthma. The proposed research uses a novel sheep model for chronic asthma to investigate the progressive changes to the blood vessels in the airway walls of asthmatic lungs. The information gained from our sheep model will assist the understanding of blood vessel growth and thus ulitmately help in devising new strategies to treat the effects of asthma.
In the asthmatic lung structural changes or remodelling occur, which are thought to contribute to the abnormal functioning of the airways. These remodelling events which occur in the asthmatic airway include increased deposition of proteins which form the scaffolding of the airways (the extracellular matrix ECM proteins), and an increased mass of bronchial smooth muscle cells. Many of these critical structural changes are not reversed or prevented with current asthma therapy. Remodelling is an i ....In the asthmatic lung structural changes or remodelling occur, which are thought to contribute to the abnormal functioning of the airways. These remodelling events which occur in the asthmatic airway include increased deposition of proteins which form the scaffolding of the airways (the extracellular matrix ECM proteins), and an increased mass of bronchial smooth muscle cells. Many of these critical structural changes are not reversed or prevented with current asthma therapy. Remodelling is an important process in both the development and progression of asthma. The reason why remodelling occurs in the lungs of people with asthma is not known. It is thought that persistent inflammation drives the remodelling process; however remodelling can perpetuate inflammation, thereby creating a cyclic series of events. Furthermore we have shown that cells from non-asthmatic volunteers which are grown on asthmatic ECM change to become more like cells from asthmatic subjects. Viruses which infect the lungs may play a role in the development of asthma, and in the increased remodelling which is observed. Many common respiratory viruses are capable of infecting lung cells, eg epithelial cells, which evokes an inflammatory response. I will investigate if viral infection can alter the remodelling process, using lung cells isolated from asthmatic and non-asthmatic volunteers. Furthermore, I will assess if current and novel treatments are effective in reducing the remodelling process. We have preliminary evidence that infection of lung epithelial cells with rhinovirus (the common cold virus) alters the amount of ECM deposited by these cells. I hypothesise that this process will be increased in cells from volunteers with asthma compared to non-asthma. As current therapeutics are unlikely to be able to reverse these remodelling events these experiments will enable the development of new therapeutics which can target this important aspect of airway disease.Read moreRead less
Developmental And Cellular Mechanisms Involved In The Pathological Changes To The Epithelium In Asthma.
Funder
National Health and Medical Research Council
Funding Amount
$263,500.00
Summary
A consensus has developed in recent years that asthma involves chronic airway inflammation superimposed upon a background of airway remodelling. If untreated, these processes result in increased airway responsiveness, variable airflow obstruction and ultimately a progressive decline in lung function). Recently the role of the epithelium in the pathogenesis of asthma has been emphasised based upon observations indicating that the epithelium can play an important role in airway inflammation and re ....A consensus has developed in recent years that asthma involves chronic airway inflammation superimposed upon a background of airway remodelling. If untreated, these processes result in increased airway responsiveness, variable airflow obstruction and ultimately a progressive decline in lung function). Recently the role of the epithelium in the pathogenesis of asthma has been emphasised based upon observations indicating that the epithelium can play an important role in airway inflammation and remodelling. However, this paradigm has been developed using data accumulated almost exclusively from studies in adults. Epidemiological studies suggest that airway remodelling might play a less significant role in the majority of childhood asthma since most children with asthma have relatively minor symptoms, minimal disruption of lung function and tend not to have symptoms that persist into adulthood. Clearly the relative importance of inflammation and remodelling and the regulatory mechanisms involved are important factors to understand particularly if new, effective prevention and therapeutic strategies are to be developed. For the first time in children, the proposed project will allow the study of asthma mechanisms using target organ tissue (airway epithelium) from a large unselected population. Primary cell samples recovered by bronchial brushing will be analysed separately and also cultured in order to investigate critical elements of the pathogenesis of asthma. Data collected from symptomatic children can be easily compared with that from healthy controls and also with data from adults to determine age related factors that contribute to asthma. Furthermore, the establishment of a repository of cultured epithelial cells from these children will provide a unique resource that will allow future collaborations with scientists studying a variety of mechanisms in asthma and with the pharmaceutical industry.Read moreRead less
The Mechanisms Underlying Pneumoviral-induced Angiogenesis Of The Lung And Its Impact On The Asthmatic Response.
Funder
National Health and Medical Research Council
Funding Amount
$564,625.00
Summary
Asthma, is a serious respiratory disease resulting in structural changes to the lung and breathing difficulties, and is often compounded by respiratory viruses. We have shown that viral infection of newborn mice causes the growth of new blood vessels in the lungs (a feature seen in human asthmatics). This project will investigate the mechanisms involved and determine the potential of this feature as a therapeutic target.