Immunopathogenesis Of Organ-specific Autoimmune Disease
Funder
National Health and Medical Research Council
Funding Amount
$284,638.00
Summary
The immune system normally protects against invasion by pathogens such as harmful viruses and bacteria. In autoimmune diseases the same mechanisms that are used to protect us are erroneously targeted to our own tissues. Our studies will employ state-of-the art technologies to further our knowledge of this class of diseases and to uncover the normal mechanisms that allow the immune system to differentiate foreign and self components.
The Role Of NKT Cell Subsets In The Regulation Of EAE
Funder
National Health and Medical Research Council
Funding Amount
$455,899.00
Summary
Multiple sclerosis (MS) is the most cause of paralysis amongst young adults. Experimental autoimmune encephalomyelitis (EAE) is an animal model of MS that recapitulates many features of the human disease. NKT cells are a group of T cells, whose actiavtion protects against EAE, in an as yet unidentified manner. These studies will provide critical information on the way in which NKT cells regulate immunity and will enhance development of therapies for MS.
Novel Approaches To Pathogenesis, Diagnosis &treatment Of Autoimmune Diseases Based On New Insights Into Thymus-dependen
Funder
National Health and Medical Research Council
Funding Amount
$1,045,422.00
Summary
An individual relies upon their immune system to protect against invasion by hostile organisms. The system usually works well. Invading agents (the 'non-self') are detected and attacked by the immune system's patrolling killer T cells. These normally beneficial cells are called T cells because they were formed and educated in an organ called the thymus, which kick-starts our immune system in childhood, but falls into inactivity by adolescence. Sometimes the education system in the thymus goes wr ....An individual relies upon their immune system to protect against invasion by hostile organisms. The system usually works well. Invading agents (the 'non-self') are detected and attacked by the immune system's patrolling killer T cells. These normally beneficial cells are called T cells because they were formed and educated in an organ called the thymus, which kick-starts our immune system in childhood, but falls into inactivity by adolescence. Sometimes the education system in the thymus goes wrong and it releases T cells that mistakenly attack 'self' instead of 'non-self'. This causes autoimmune diseases, such as type1 diabetes, multiple sclerosis and rheumatoid arthritis. The Euro-Thymaide project aims to determine why and how self-attacking T cells are mistakenly released from the thymus into the body. Usually such errant T cells are detected and destroyed within the thymus, before they have the opportunity to escape and cause autoimmune diseases. The ultimate objective is to learn about the thymus recognition process and help the immune system detect and destroy faulty T cells that patrol the body, thereby preventing the onset of autoimmune diseases.Read moreRead less
Investigating T Cell Tolerance And Organ-specific Auotimmunity Using Autoantigen Deficient Mice
Funder
National Health and Medical Research Council
Funding Amount
$441,000.00
Summary
The immune system normally protects against invasion by pathogens such as harmful viruses and bacteria. In autoimmune diseases the same mechanisms that are used to protect us are erroneously targeted to our own tissues. Our studies will employ technologies to genetically manipulate mice to further our knowledge of this class of disease and to uncover the normal mechanisms that allow the immune system to prevent autoimmune attack. In particular we will gain information on the way that a new class ....The immune system normally protects against invasion by pathogens such as harmful viruses and bacteria. In autoimmune diseases the same mechanisms that are used to protect us are erroneously targeted to our own tissues. Our studies will employ technologies to genetically manipulate mice to further our knowledge of this class of disease and to uncover the normal mechanisms that allow the immune system to prevent autoimmune attack. In particular we will gain information on the way that a new class of lymphocytes, known as regulatory lymphocytes, are able to protect against autoimmune disease. Such regulatory lymphocytes have been identified in humans and are attractive therapeutic agents to prevent a variety of immune-mediated diseases, including autoimmune diseases, allergy and transplantation rejection.Read moreRead less
CD4 T Cell-mediated Tolerance And Autoimmunity To The Gastric H/K ATPase In Genetically Manipulated Mice
Funder
National Health and Medical Research Council
Funding Amount
$295,780.00
Summary
The immune system is designed to protect us from foreign pathogens such as bacteria and viruses. However, the system is not prefect and sometimes attacks an individual's own tissue (termed autoimmunity). Autoimmunity is not uncommon in the population, including diseases such as diabetes, rheumatoid arthritis and pernicious anaemia, to name a few. To study the details associated with why and how the immune system can turn on the host, we use animal models which mimic the human diseases. The model ....The immune system is designed to protect us from foreign pathogens such as bacteria and viruses. However, the system is not prefect and sometimes attacks an individual's own tissue (termed autoimmunity). Autoimmunity is not uncommon in the population, including diseases such as diabetes, rheumatoid arthritis and pernicious anaemia, to name a few. To study the details associated with why and how the immune system can turn on the host, we use animal models which mimic the human diseases. The model we use is a mouse model for autoimmune gastritis which is an organ-specific autoimmune disorder of the stomach. People with autoimmune gastritis produce a specific autoimmune response directed at the acid secreting cells of the stomach call parietal cells. Parietal cells also produced a substance called intrinsic factor which is needed for the absorption of vitamin B12 from the diet. The lack of vitamin B12 uptake results in abnormal red blood cell formation and anaemia; hence the term pernicious anaemia. One of the unanswered questions associated with the immune system is what regulates the whole system so that it does not induce autoimmunity in everyone. The mechanisms which control or prevent autoimmunity is the subject of much debate. There is good evidence that regulation of the immune system is performed by specific suppression by regulatory cells. Many important question about these cells remain unanswered. For example, it is not known how these cells are generated or how they prevent the autoreactive cells from performing their harmful behaviour. Using our animal model for autoimmune gastritis, we are addressing some of the questions which surround the events which induce and protect us from autoimmunity. By using mice in which most of the lymphocytes in the circulation are of the same specificity (TCR-transgenic), we can follow the fate of those cells and look for cells with different characteristics; such as the ability to supress an immune response.Read moreRead less
Control and effective treatment of autoimmune diseases remain major challenges to our health system. Diseases such as multiple sclerosis, systemic lupus erythematosus, diabetes and pernicious anaemia are serious conditions that are essentially incurable. Current treatment is only effective in providing temporary relief as it is not directed against the underlying disease process. This project will manipulate the immune system in such a way that early disease processes in autoimmunity will be blo ....Control and effective treatment of autoimmune diseases remain major challenges to our health system. Diseases such as multiple sclerosis, systemic lupus erythematosus, diabetes and pernicious anaemia are serious conditions that are essentially incurable. Current treatment is only effective in providing temporary relief as it is not directed against the underlying disease process. This project will manipulate the immune system in such a way that early disease processes in autoimmunity will be blocked with the ultimate goal to cure the disease. Using an experimental model of pernicious anaemia in mice, where the basic pathology is immune-mediated gastritis, the disease will be treated by presenting the disease causing autoantigen via modified, or immature, antigen presenting cells to the immune system. In other experimental models which form the background to this project we have shown that this approach leads to down-regulation of the immune response by generating cells which specifically suppress the immune system. In our studies of autoimmune gastritis we will obtain modified antigen presenting cells from the skin, the blood, the spleen and thymus and use these cells to define optimal conditions for presenting the auto-antigen molecules to achieve the ultimate goal, which is antigen specific suppression of autoimmune gastritis. Our hypothesis is that immature antigen presenting cells are unable to present antigen to induce an effective immune response, but instead induce a response that results in antigen specific suppression. We intend to use this antigen specific suppression to prevent the establishment of autoimmune gastritis as well as treatment of established disease. This is a unique and potentially valuable strategy to treat autoimmune gastritis and offers the potential to apply this approach to other autoimmune conditionsRead moreRead less
Stem Cell Engineering To Establish Tolerance And Reverse Autoimmunity
Funder
National Health and Medical Research Council
Funding Amount
$497,250.00
Summary
The immune system is designed to protect us from harmful invaders such as bacteria, viruses and parasites. It should not attack our own tissues. However, in certain individuals, the immune system does attack our own tissues leading to life threatening conditions such as diabetes, multiple sclerosis and rheumatoid arthritis. To date, there is no cure for autoimmune diseases. Treatment is designed to treat the destructive effects of the disease. A strategy for achieving a cure is to program the im ....The immune system is designed to protect us from harmful invaders such as bacteria, viruses and parasites. It should not attack our own tissues. However, in certain individuals, the immune system does attack our own tissues leading to life threatening conditions such as diabetes, multiple sclerosis and rheumatoid arthritis. To date, there is no cure for autoimmune diseases. Treatment is designed to treat the destructive effects of the disease. A strategy for achieving a cure is to program the immune system to remove the harmful immune cells. Autoimmune gastritis which leads to pernicious anaemia is an autoimmune disease which affects the acid secreting cells of the stomach. To get a better understanding of autoimmune diseases, animal models are often used. We use a number of mouse models of autoimmune gastritis which closely resembles the human disease and thus makes a very good working model. Using these models we are exploring novel techniques aimed at reversing or curing established disease. This relies on removing the disease causing cells from the body and re-programming the immune system so as not to produce these cells.Read moreRead less
A Functional Genomic Approach To The Genetics Of Autoimmune (type A) Gastritis
Funder
National Health and Medical Research Council
Funding Amount
$467,640.00
Summary
The thymus produces white blood cells which defend the body from infections and cancer. Unfortunately, these white blood cells can also cause disease if they target the body's own tissues. These disesaes are called autoimmune diseases, and an example of such a disease is autoimmune (type A) gastritis, in which the white cells target the acid-producing cells of the stomach. The resulting damage can lead to the development of pernicious anaemia (vitamin B12 deficiency) and cancer of the stomach. T ....The thymus produces white blood cells which defend the body from infections and cancer. Unfortunately, these white blood cells can also cause disease if they target the body's own tissues. These disesaes are called autoimmune diseases, and an example of such a disease is autoimmune (type A) gastritis, in which the white cells target the acid-producing cells of the stomach. The resulting damage can lead to the development of pernicious anaemia (vitamin B12 deficiency) and cancer of the stomach. This project studies a mouse model of autoimmune gastritis with the aim of identifying the genes that encode susceptibility to the disease in this model. Ultimately, this information should help us to devise therapies that can be applied to the clinical situation. We have previously identified the locations of the genes which are responsible for causing gastritis in these mice. Two of them are very close together on one chromosome and appear to be very important because they have the strongest effects. Furthermore, there is some evidence that these genes may also be involved in determining susceptibility to diabetes and lupus. This project aims to further characterise these genes by locating them more exactly and by examining their effect on mice not normally prone to gastritis.Read moreRead less
Genetic And Biochemical Mechanisms Dysregulating CD4 T Cell Tolerance In Organ-specific Autoimmunity
Funder
National Health and Medical Research Council
Funding Amount
$456,000.00
Summary
This project will analyse mechanisms that regulate CD4 T cells and normally prevent the immune system from attacking parts of our own body. Unknown errors in the control of T cells result in autoimmune diseases such as Type 1 diabetes, multiple sclerosis, and thyroid disease, where T cells damage or destroy vital organs. In order to develop rational, specific methods for treating and preventing these diseases, it is necessary to identify and understand the genetic and biochemical mechanisms that ....This project will analyse mechanisms that regulate CD4 T cells and normally prevent the immune system from attacking parts of our own body. Unknown errors in the control of T cells result in autoimmune diseases such as Type 1 diabetes, multiple sclerosis, and thyroid disease, where T cells damage or destroy vital organs. In order to develop rational, specific methods for treating and preventing these diseases, it is necessary to identify and understand the genetic and biochemical mechanisms that normally control T cell cell responses to self components, and how inherited defects lead these mechanisms to break down. The project focuses on defining how CD4 T cell regulation breaks down in two well established examples of inherited susceptibility to autoimmune disease. The direct action of autoimmune susceptibility genes will be determined at the level of the specific T cells responsible for autoimmune attack and in terms of the biochemical pathways within T cells that are dysregulated. By identifying the mechanisms and biochemical pathways that are dysregulated in autoimmune disorders, the results of this project will reveal targets for understanding and diagnosing autoimmune diseases and for developing new drugs or or vaccines to prevent T cells damaging vital organs and cure these diseases.Read moreRead less