I am a research scientist measuring inhaled and exhaled bioaerosols, such as viruses and allergens, to determine their clinical role in human respiratory diseases, particularly asthma.
The main purpose of this study is to understand how airborne fungi affect asthmatics who are allergic to them. Fungi or moulds release large numbers of spores into the air that are inhaled. In many cases fungal spores outnumber other particles that carry allergen, such as pollens or cat dander, by 100 to 1. This makes fungi the most common potential allergen in the environment. Fungi have been associated with respiratory diseases including fungal sinusitis, asthma, rhinitis, allergic alveolitis ....The main purpose of this study is to understand how airborne fungi affect asthmatics who are allergic to them. Fungi or moulds release large numbers of spores into the air that are inhaled. In many cases fungal spores outnumber other particles that carry allergen, such as pollens or cat dander, by 100 to 1. This makes fungi the most common potential allergen in the environment. Fungi have been associated with respiratory diseases including fungal sinusitis, asthma, rhinitis, allergic alveolitis and sick building syndrome. Largely due to their diversity and complexity, allergenic fungi have not been well studied and the ways in which individuals vary when inhaling spores is not known. Unlike other allergenic particles, it is unlikely that fungal spores release their allergen as soon as they are inhaled because we have shown in earlier in vitro studies that fungi continue to release allergen over time and this is likely to be the case when they are inhaled. Our laboratory has developed two new techniques that allow us to measure how many spores people inhale and whether they are allergic to them. This study will use these tools to detect and identify the important allergenic fungi involved in domestic and outdoor exposure of asthmatics, the degree of contribution to the total allergen load to which subjects are exposed and identify in what conditions fungi are the causal agents in location-specific symptoms. This study will also investigate allergen production of fungi in situ in the human nose, which will have application in allergic sinusitis and asthma amongst other respiratory diseases. We will investigate how readily allergenic spores germinate in the nose and under what conditions they release allergen.Read moreRead less
Many approaches to the prevention and treatment of allergy and associated asthma are dependent on the identification of the allergens producing the inflammation. This applies to new methods of determining the exposure to allergens and measuring the effectiveness of procedures which minimise allergen exposure. Diagnostic and immunotherapeutic measures require reliable preparations of allergens. The presence of important allergens in extracts however can be variable and often low so it important t ....Many approaches to the prevention and treatment of allergy and associated asthma are dependent on the identification of the allergens producing the inflammation. This applies to new methods of determining the exposure to allergens and measuring the effectiveness of procedures which minimise allergen exposure. Diagnostic and immunotherapeutic measures require reliable preparations of allergens. The presence of important allergens in extracts however can be variable and often low so it important that the allergens be identified and monitored. It is also important that new forms of immunotherapy being developed consider the responses to all allergens. Allergy to the cat is, behind house dust mite, the second most frequent allergy associated with asthma in most developed countries and brief exposure to a cat frequently induces life-threatening attacks. Almost all of the study of cat allergens have concentrated on a single allergen called Fel d 1. Although it importance is undisputed critical reading of the literature show it is only responsible for 50% of the IgE binding in cat extracts and recent work on cross allergy to cat and dogs and experimental therapy based on Fel d 1 point to the importance of other allergens. Experience with other source of allergens has shown that at least several allergens are usually important. It is also apparent from other studies that some allergens which are difficult to detect in extracts, and cannot be readily studied by immunochemistry are important. This project will use both cDNA cloning and immunochemistry to identify and characterize the other cat allergens and determine there relative importance. In particular it intended that they can be used, along with Fel d 1, to develop new types of immunotherapy.Read moreRead less
Fetomaternal Immunological Interactions In The Aetiology Of Allergic Disease.
Funder
National Health and Medical Research Council
Funding Amount
$195,990.00
Summary
There is accumulating evidence that immune abnormalities that lead to allergy are present at birth, and may be linked with maternal factors in pregnancy. This study examines how immune interactions between the fetus and the mother during pregnancy predispose to allergic immune responses in the infant. Allergic diseases result from inappropriate Type 2 responses to the environment whereas Type 1 response dominate immune responses of nonallergic people. Type 2 immune responses are first initiated ....There is accumulating evidence that immune abnormalities that lead to allergy are present at birth, and may be linked with maternal factors in pregnancy. This study examines how immune interactions between the fetus and the mother during pregnancy predispose to allergic immune responses in the infant. Allergic diseases result from inappropriate Type 2 responses to the environment whereas Type 1 response dominate immune responses of nonallergic people. Type 2 immune responses are first initiated before birth when they are actually normal for fetal survival. In normal infants maturation of Type 1 immune responses plays a central role in switching off the Type 2 responses of fetal life. Allergic disease appears to be due to abnormal persistence of this Type 2 response pattern beyond the newborn period. One of the most striking abnormalities in allergic individuals is immature Type 1 function at birth. With rising rates of allergy, there is an urgent need to identify how the balance of Type 1 and Type 2 responses is regulated during this early period. Maternal factors appear to play a critical role. There is already evidence that Type 1 responses are lower in babies of allergic mothers compared to babies of allergic fathers, suggesting direct effects of the mother in pregnancy. Although pregnancy normally favours Type 2 immunity, there appears to be normal variation in the balance of Type 1 and Type 2 responses in pregnancy. We plan to determine if variations in this balance affect the fetal capacity for Type 1 responses. We propose that minor degrees of tissue mismatch (present in all pregnancies) will activate low grade Type 1 responses and enhance maturation of fetal Type 1 responses. We will determine if allergic mothers (prone to stronger Type 2 responses) have less developed Type 1 responses in pregnancy and if this plays a direct role in abnormal Type 1 responses observed in their babies.Read moreRead less
Mimotopes For The Investigation And Therapy Of Allergic Disease
Funder
National Health and Medical Research Council
Funding Amount
$203,296.00
Summary
10% of children now use regular asthma medication. The current treatments dampen allergic inflammation but 25% of asthmatic children, all under high medication, need multiple visits to the doctor, emergency treatment or hospitalisation,. Immunotherapy has, since 1911, used repeated injections of allergens. The end result has often been successful and lasting but the response has been unpredictable and requires years of multi-injection treatment. The challenge is to develop effective, applicable ....10% of children now use regular asthma medication. The current treatments dampen allergic inflammation but 25% of asthmatic children, all under high medication, need multiple visits to the doctor, emergency treatment or hospitalisation,. Immunotherapy has, since 1911, used repeated injections of allergens. The end result has often been successful and lasting but the response has been unpredictable and requires years of multi-injection treatment. The challenge is to develop effective, applicable immunotherapy which, like vaccines use few injections. Mimotopes provide a new opportunity. Studying the parts of the allergens recognized by the immune system (epitopes) can reveal important phenomena undetectable with whole allergens; and single epitopes may be a powerful avenue to effective immunotherapy. The therapy can be targeted to a selected arm of the immune system for maximal effect and the immediate side effects induced by cross linking antibodies with two epitopes can be avoided. Allergens interact with two types of lymphocyte, the T and B cells. T-cell epitopes can be easily studied because they comprise short regions of proteins which can be synthesized. B-cell (and antibody) epitopes are shapes formed by the interaction of several parts of a protein which cannot be represented by a simple sequence. The mimotope technology uses random peptides to obtain a shape which mimics the B-cell epitope. Here mimotopes will be produced and used to study the common specificities recognized in allergic responses to house dust mite allergens to develop new types of therapy. Importantly recent information shows that B-cell epitopes can be used to modify both T and B-cell function.Read moreRead less
Couch Grass Allergy: Cellular And Molecular Studies Directed At Improved Specific Immunotherapy
Funder
National Health and Medical Research Council
Funding Amount
$406,980.00
Summary
Couch grass pollen is increasingly important in Australia and other temperate and subtropical regions as a seasonal allergen causing asthma and hay fever. In our allergy clinic 85% of patients with seasonal asthma and-or hay fever are allergic to both couch grass pollen and rye grass pollen. Standard allergy treatment shots usually cover the rye grass pollen allergens but there is no cross-reactivity with couch grass pollen and therefore symptoms due to couch grass pollen are not controlled. The ....Couch grass pollen is increasingly important in Australia and other temperate and subtropical regions as a seasonal allergen causing asthma and hay fever. In our allergy clinic 85% of patients with seasonal asthma and-or hay fever are allergic to both couch grass pollen and rye grass pollen. Standard allergy treatment shots usually cover the rye grass pollen allergens but there is no cross-reactivity with couch grass pollen and therefore symptoms due to couch grass pollen are not controlled. These shots are seldom used in asthmatic patients because of the risk of severe asthma or generalised allergic reactions. We plan to examine human blood cell responses to couch grass pollen allergens before and after allergy shots with a preparation that includes couch grass pollen and rye grass pollen. A comparable control group of patients receiving only drug therapy will also be investigated. This study will identify dominant sites of couch grass pollen allergen immunoreactivity and reveal mechanisms of desensitisation. Based on this information, we will develop novel couch grass pollen proteins that retain the positive features needed for a successful desensitising vaccine but without the ability to bind to allergy antibodies and possibly cause severe adverse events such as asthma attacks. These preparations could be used to provide safer and more effective allergy treatments that can be used in hay fever sufferers and asthmatics.Read moreRead less
Inhibition Of Allergic Airway Inflammation By Nanoparticles
Funder
National Health and Medical Research Council
Funding Amount
$540,075.00
Summary
Inhaled air pollution particulate matter causes asthma exacerbations, with 'ultrafine' nanoparticles thought to play a major role. Unexpectedly, we recently found that, by contrast, administration of inert ultrafine nanoparticles prevents allergic airway inflammation. We will identify the key particle physical and chemical properties associated with this novel type of disease inhibition, study particle effects in clinically-relevant disease models and identify mechanisms of action.
Initiating Events In The Development Of Allergic Airway Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$452,545.00
Summary
Despite recent advances we still do not understand the basic mechanisms which underlie the development of allergic airway inflammatory diseases such as rhinitis and asthma. It has been previously shown that when pollen are exposed to water they release a large number of very small starch granules which contain a number of potent allergens as well as plant steroids. In addition house dust mite allergens which are strongly associated with asthma are mostly located in small faecal pellets. Both the ....Despite recent advances we still do not understand the basic mechanisms which underlie the development of allergic airway inflammatory diseases such as rhinitis and asthma. It has been previously shown that when pollen are exposed to water they release a large number of very small starch granules which contain a number of potent allergens as well as plant steroids. In addition house dust mite allergens which are strongly associated with asthma are mostly located in small faecal pellets. Both these particles are ideally sized to enter the respiratory tract and initiate inflammatory responses. We have shown that these responses appear to be of the type that is needed to initiate allergic reactions. We intend to further study the interactions of these small inhaled allergen containing particles with cells of the respiratory tract. In this proposal we will look at both alveolar macrophages and respiratory epithelial cells. These approaches will not only provide new information about the processes of airway inflammation caused by allergens but may also define new therapeutic approaches to the treatment of these diseases.Read moreRead less