Innovative Stem Cell-based Strategies To Establish Immune Tolerance And Tissue Repair
Funder
National Health and Medical Research Council
Funding Amount
$5,554,618.00
Summary
Diseases such as autoimmune gastritis, multiple sclerosis and diabetes arise because a rogue immune system has turned inwards to attack our organs. The organ destruction follows from recognition by the immune system of specific molecules in these organs. These autoimmune diseases are incurable and controlled mainly by long-term administration of substances that suppress the immune system, often with serious side-effects. A rational approach is to render the rogue immune system harmless by removi ....Diseases such as autoimmune gastritis, multiple sclerosis and diabetes arise because a rogue immune system has turned inwards to attack our organs. The organ destruction follows from recognition by the immune system of specific molecules in these organs. These autoimmune diseases are incurable and controlled mainly by long-term administration of substances that suppress the immune system, often with serious side-effects. A rational approach is to render the rogue immune system harmless by removing the cells that recognize these particular molecules. This can be achieved by a Trojan horse approach in which the molecules are delivered to the immune system such that that the immune cells that recognize them are removed. To deliver these molecules to the immune system we will genetically engineer bone marrow stem cells, or embryonic stem cells that generate these stem cells, because they are precursors of mature immune cells. Rejection of organ transplants arise in a similar way and also require long-term immunosuppression. A similar approach can therefore be taken to promote acceptance of foreign organ grafts. In the aged, we will combine these approaches with rejuvenation of the immune system by blockade of sex steroid production and-or by creation of a new immune organ.Read moreRead less
Type 1 diabetes (T1D) is a major chronic disease affecting over 100,000 Australians. Its treatment and complications impose a significant burden on affected individuals and their families and on the health system. T1D occurs when the immune system attacks insulin-producing cells in the islet cells of the pancreas. The team has developed ways to identify at-risk people, defined immune and genetic causes of T1D and is undertaking prevention trials and Australia's first islet transplant program. Th ....Type 1 diabetes (T1D) is a major chronic disease affecting over 100,000 Australians. Its treatment and complications impose a significant burden on affected individuals and their families and on the health system. T1D occurs when the immune system attacks insulin-producing cells in the islet cells of the pancreas. The team has developed ways to identify at-risk people, defined immune and genetic causes of T1D and is undertaking prevention trials and Australia's first islet transplant program. Their multidisciplinary research is taking us closer to the prevention and cure of T1D.Read moreRead less
Antigen Presentation, Recognition And The Immune Response
Funder
National Health and Medical Research Council
Funding Amount
$15,738,750.00
Summary
The early events in immunity require various molecular interactions. We will examine the structural and biophysical basis for some of these interactions, including those associated with transplant rejection and autoimmunity. We will explore the impact of variation in immune response genes on immune evasion and disease susceptibility. Our basic research will determine the mechanisms by which the immune system discriminates between different self and micro-organism associated determinants. We will ....The early events in immunity require various molecular interactions. We will examine the structural and biophysical basis for some of these interactions, including those associated with transplant rejection and autoimmunity. We will explore the impact of variation in immune response genes on immune evasion and disease susceptibility. Our basic research will determine the mechanisms by which the immune system discriminates between different self and micro-organism associated determinants. We will address the structural and biochemical basis for operation of an immune molecule called tapasin and unravel the basis for how some viruses escape the function of this molecule, thus allowing their immune evasion. We will also explore the use of modified small proteins called peptides in a humanized model of gluten hypersensitivity resembling that of Celiac disease. The molecular basis of the natural human immune system's capacity to recognise and reject grafts will be examined. This complements work aimed at improving the prediction of clinical graft rejection in transplantation. Dendritic cells play a central role in immunity, responsible for capturing material, whether from micro-organisms or self tissues, and presenting it to cells of the immune system. Our program will study the development and immunological function of the different dendritic cell subtypes. We will determine the relative contribution of each to the maintenance of immune tolerance and to the induction of immunity to several pathogens, including herpes simplex virus and malaria. Novel dendritic cell surface molecules that we have discovered will be tested for their ability to enhance the effectiveness of vaccines. Overall, this program utilises a broad array of immunological techniques designed to dissect the development and function of various immune system cell types and determine the structure-function relationships between important cell surface molecules involved in immunity.Read moreRead less