The immune system plays an important role in protecting us from infectious diseases. To do this it regulates a series of cell types that must decide upon an appropriate course. In general, this response is successful and protective. However, occasionally the cells make an inappropriate decision leading to problems. For example, allergies are an incorrect response against pollens and dust mites. Similarly, autoimmune disease such as diabetes and multiple sclerosis result from inappropriate attack ....The immune system plays an important role in protecting us from infectious diseases. To do this it regulates a series of cell types that must decide upon an appropriate course. In general, this response is successful and protective. However, occasionally the cells make an inappropriate decision leading to problems. For example, allergies are an incorrect response against pollens and dust mites. Similarly, autoimmune disease such as diabetes and multiple sclerosis result from inappropriate attack upon our own tissues. Despite the clear importance of immune regulation for health, the complexity of its behaviour has made it difficult to predict and control. In this research program a new theory of immune regulation with clear implications for rational intervention and beneficial manipulation of the immune system will be developed.Read moreRead less
Cell Division And The Regulation Of Immunoglobulin Switch Recombination At The Molecular Level
Funder
National Health and Medical Research Council
Funding Amount
$392,545.00
Summary
The B lymphocyte is an important cell in the immune response as it generates protective antibody against invading pathogens. The effectiveness of an antibody response partly depends on the type of antibody made (there are eight different types). This attribute alters as the immune response progresses in a poorly understood and highly complex way. However, our recent studies have revealed a simple underlying order that can be dissected using new methods. The key to the underlying simplicity is a ....The B lymphocyte is an important cell in the immune response as it generates protective antibody against invading pathogens. The effectiveness of an antibody response partly depends on the type of antibody made (there are eight different types). This attribute alters as the immune response progresses in a poorly understood and highly complex way. However, our recent studies have revealed a simple underlying order that can be dissected using new methods. The key to the underlying simplicity is a cell division clock used to relate and promote cell changes. Here we intend to apply this new concept and the new methods to dissecting the molecular events associated with linking division to the changing properties of antibody selection. Our aim is to accurately model the process of changing antibody types at both the molecular and whole tissue levels. These studies will give us new insights into how the immune response may be directed to make the most appropriate (effective) response during infection and vaccination.Read moreRead less
B-1 B Cells As A Source Of Polyreactive IgE Antibodies, In Allergic Individuals
Funder
National Health and Medical Research Council
Funding Amount
$331,320.00
Summary
Allergic disease results from the actions of antibody molecules that are produced by cells called B cells. Over the last fifteen years, it has been realised that there are at least two B cell subsets, called B-1 and B-2 cells. The B-1 cells and their antibody products have many unusual features, and they have been implicated in some disease processes. We have recently completed studies that strongly suggest that B-1 B cells may play an important role in some allergic disease. We wish to compare ....Allergic disease results from the actions of antibody molecules that are produced by cells called B cells. Over the last fifteen years, it has been realised that there are at least two B cell subsets, called B-1 and B-2 cells. The B-1 cells and their antibody products have many unusual features, and they have been implicated in some disease processes. We have recently completed studies that strongly suggest that B-1 B cells may play an important role in some allergic disease. We wish to compare groups of patients defined according to their allergic conditions and age, to see whether B-1 B cell activity is associated with particular allergic diseases. We hypothesise that patients with allergic skin conditions have raised numbers of allergy-inducing B-1 cells. Such patients will be compared with those with allergies to inhalent allergens and others with food allergies. Studies will be performed in adult groups as well as in children, for B-1 B cell numbers are known to vary with age. As most of our understanding of the regulation of B cell function, in the context of allergic disease, has arisen from studies conducted with conventional B-2 cells, we also wish to reconsider aspects of B cell regulation. We are specifically interested in the regulation of the 'switching' of B-1 B cells, when they change from the production of antibodies of a 'non-allergic' type (IgM antibodies) to allergy-promoting IgE antibodies. We wish to determine whether the B-1 B cells of allergic individuals are particularly susceptible to such switching, when under the influence of regulatory molecules called cytokines. We expect that B-1 B cells will be associated with some, though not all allergic conditions, and that these cells will emerge as a new target for therapies. Such a finding would be most important. The development of new therapies will require a better understanding of the regulation of these cells, and this will be another important outcome of this project.Read moreRead less
Development Of A Diagnostic Test For Bipolar Disorder (BD)
Funder
National Health and Medical Research Council
Funding Amount
$140,330.00
Summary
A unique test that monitors the rate of switching between the hemispheres of the brain in response to visual stimuli has been devised. A patent application covers an apparatus and test to measure the switching rate between the hemispheres and the way in which such measurements can be used as a means to diagnose bipolar disorder (BD). BD, also called manic depression, is a form of depression that currently affects over six million people worldwide with about three million in the USA alone. The co ....A unique test that monitors the rate of switching between the hemispheres of the brain in response to visual stimuli has been devised. A patent application covers an apparatus and test to measure the switching rate between the hemispheres and the way in which such measurements can be used as a means to diagnose bipolar disorder (BD). BD, also called manic depression, is a form of depression that currently affects over six million people worldwide with about three million in the USA alone. The condition has phases of mania and depression and periods of remittance. Full cycles of BD can occur as many as three times a year and for many patients, this is a lifelong condition. BD is effectively treated, once it is diagnosed. It is estimated that 20% of sufferers go undiagnosed and many more are misdiagnosed. The cost of mis- or non-diagnosis is measured by suicides, the financial burden on society with health care, loss of productivity etc, effects on family and associates, crime, etc. Diagnosis to date is achieved mainly by subjective means such as questionnaires. These instruments do not conclusively separate BD from other forms of depression and schizophrenia, for which treatment is quite different. Nor do they allow for factors such as substance abuse and other medical conditions that the patient may be suffering. BD is hereditary with the slow hemispheric switch rate being an indicator of the genetic trait. This phenomenon allows for an objective test for BD, even if an individual has not had an episode of BD. The slow switch allows relatively easy separation of a BD patient from those exhibiting symptoms that may have other causes.Read moreRead less