The Generation And Function Of Tissue-specific Regulatory T Cells
Funder
National Health and Medical Research Council
Funding Amount
$488,577.00
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. We will discover how regulatory lymphocytes, are able to protect against autoimmune disease. Such regulatory lymphocytes are attractive therapeutic agents to prevent a variety of immune-mediated diseases, including autoimmune diseases, allergy and transplantation rejection.
An Autoantibody In Type 1 Diabetes That Mediates Autonomic Complications
Funder
National Health and Medical Research Council
Funding Amount
$254,591.00
Summary
Type 1 diabetes is a chronic autoimmune disease characterised by destruction of insulin producing cells in the pancreas. One of the most common and serious complications of type 1 diabetes is disruption of the autoimmune nervous system, and once symptoms appear the 5-year mortalityrate is approximately 50%. Symptoms of autonomic dysfunction can be extensive, and involve the stomach, intestine, bladder, heart and reproductive organs. Currently, the management of autonomic dysfunction remains prim ....Type 1 diabetes is a chronic autoimmune disease characterised by destruction of insulin producing cells in the pancreas. One of the most common and serious complications of type 1 diabetes is disruption of the autoimmune nervous system, and once symptoms appear the 5-year mortalityrate is approximately 50%. Symptoms of autonomic dysfunction can be extensive, and involve the stomach, intestine, bladder, heart and reproductive organs. Currently, the management of autonomic dysfunction remains primative due to our poor understanding of the mechanisms underlaying the disease. Recent work from our group has identified an excitatory autoantibody (an antibody against the self) to calcium channels in patients with type 1 diabetes. The anti-calcium channel autoantibody profoundly disrupts gut and bladder function by interfering with autonomic regulation of smooth muscle within these organs. The anti-calcium channel autoantibody is the first functional autoantibody to be detected in type 1 diabetes, and represents a conceptual advance in our understanding of immune mechanisms in this disease. Using animal models and a panel of novel, functional assays of colon, stomach and bladder we will investigate how the anti-calcium channel autoantibodies contribute to autonomic dysfunction in type 1 diabetes. Understanding the mechanisms by which this autoantibody effects autonomic regulation of organ function will enable the development of new therapeutic strategies for better management of patients.Read moreRead less
Identifying The Underlying Mechanisms Responsible For The Generation Of Pathogenic B Cells In Type 1 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$163,755.00
Summary
Type 1 diabetes (T1D) occurs when the body's own immune system mistakenly attacks and destroys all the beta cells of the pancreas which produce insulin, a hormone essential for regulating sugar levels in the blood. The non-obese diabetic (NOD) mouse develops a form of T1D closely resembling the human disease, and as a model, has led to numerous important insights into its cause. Based on studies in NOD mice, it is now well accepted that a class of cell in the immune system, termed T cells, are r ....Type 1 diabetes (T1D) occurs when the body's own immune system mistakenly attacks and destroys all the beta cells of the pancreas which produce insulin, a hormone essential for regulating sugar levels in the blood. The non-obese diabetic (NOD) mouse develops a form of T1D closely resembling the human disease, and as a model, has led to numerous important insights into its cause. Based on studies in NOD mice, it is now well accepted that a class of cell in the immune system, termed T cells, are responsible for most of the damage to the beta cells in T1D. Recent work in this model, however, has demonstrated that another class of immune cell, termed B cells, also play an important role in T1D as NOD mice made deficient in these cells no longer develop disease. In addition to producing antibodies, B cells are one of the few cell types which are able to take up and present protein fragments in a form recognizable to T cells. Normally, this only leads to the activation of T cells recognising foreign insults, like viruses or bacteria, resulting in their destruction. We have shown that a dangerous population of B cells can arise in NOD mice that can specifically take up beta cell proteins and present them to the T cells, which subsequently become armed to recognise and destroy the beta cells. Just like T cells, B cells that recognize the body's own proteins are normally eliminated in healthy mice and human individuals. This research proposal aims to determine the faulty immune mechanisms that give rise to the beta cell specific B cells in NOD mice. We have also set out to identify the diabetes susceptibility genes which control the generation of this dangerous population of B cells in this model. By understanding how these dangerous B cells are generated in NOD mice, we hope to form the basis for new therapies aimed at inhibiting these cells from forming in T1D susceptible humans, thus preventing the disease at an early stage.Read moreRead less
Organ-specific Autoimmunity: The Role Of The Thymus And Periphery In Shaping The Gastric-specific T Cell Repertoire
Funder
National Health and Medical Research Council
Funding Amount
$579,763.00
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. White blood cells, called T lymphocytes are responsible for attacking our own tissues in autoimmune diseases. Our studies will employ a range of molecular, genetic and imaging technologies to track the rare and potential harmful white blood cells. Our studies should reveal the me ....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. White blood cells, called T lymphocytes are responsible for attacking our own tissues in autoimmune diseases. Our studies will employ a range of molecular, genetic and imaging technologies to track the rare and potential harmful white blood cells. Our studies should reveal the mechanisms by which these self destructive T lymphocytes are silenced in healthy individuals on the one hand, and on the other hand escape to cause destruction in individuals with autoimmune diseases. This fundamental information will allow the development of therapeutic strategies to selectively turn-off these destructive T lymphoctyes in individuals with autoimmune disease and thereby remove the damaging immune response and cure the disease.Read moreRead less
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
Genetic Control Of Susceptibility To Autoimmune Gastritis
Funder
National Health and Medical Research Council
Funding Amount
$346,945.00
Summary
Autoimmune gastritis is caused by the immune system targeting and destroying the stomach lining. We have developed a mouse model of the causes of gastritis and mapped the two major genes that can control susceptibility. This project involves the final stages of identifying these genes and determining how they cause disease.
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