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In type 1 diabetes the body becomes deficient in insulin production from pancreatic b cells because the immune system mistakenly attacks and destroys b cells as if they were an invading infection. Recurrence of autoimmune destruction of b cells also occurs following transplantation of whole pancreas or islet cells and may occur in the future when other engineered insulin producing cells are transplanted. The focus of this program is to better understand how b cells are killed by the immune syste ....In type 1 diabetes the body becomes deficient in insulin production from pancreatic b cells because the immune system mistakenly attacks and destroys b cells as if they were an invading infection. Recurrence of autoimmune destruction of b cells also occurs following transplantation of whole pancreas or islet cells and may occur in the future when other engineered insulin producing cells are transplanted. The focus of this program is to better understand how b cells are killed by the immune system and to test ways of protecting beta cells from these mechanisms. Because of the inaccessibility of the pancreas to study (particularly biopsy) in humans with diabetes, much of the proposed work will be carried out in b cells derived from non-obese diabetic (NOD) mice, the best available mouse model of type 1 diabetes. It is clear from the literature that a molecule called perforin found in cytoxic T lymphocytes (CTL) is a major, if not the major, mechanism the immune system uses against b cells. For this reason we will try to better understand the interaction between b cells and perforin and ultimately design ways of them from perforin-mediated cell death. It is equally clear that there are other mechanisms besides perforin that can cause b cell death and the program will also address discovery of these mechanisms and new ways to block them. Beta cells in NOD mice will be protected from perforin or other mechanisms by the addition of protective genes or removal of harmful genes using transgenic knockout technology. Addition or removal of genes involved in cell death can be done systematically and each protocol tested using NOD mouse model. The process of cell death that b cell undergo in type 1 diabetes is called apoptosis. Apoptosis is a general mechanism by which cells of all types die. Experts in the biology of apoptosis and perforin are important members of the program, providing the opportunity to translate the latest advances in cell death research to diabetes. This research addresses several of the specific research areas of interest to JDRF. It focuses on the prevention of b cell death in individuals with type 1 diabetes receiving islet transplants. It may be applicable in the future to protection of stem or precursor cells that have been differentiated into b cells or even to devising strategies to prevent the development of diabetes.Read moreRead less
Role Of Nuclear Receptors In Hepatic Injury And Fibrogenesis
Funder
National Health and Medical Research Council
Funding Amount
$443,520.00
Summary
Chronic liver disease is a major cause of death and ill health on a word-wide scale. Several common liver diseases, such as hepatitis B, hepatitis C and non-alcoholic steatohepatitis (fatty liver disease not due to alcohol), are capable of causing protracted liver damage. Irrespective of the cause of injury, the liver has a very narrow way of responding to chronic damage. The most important and insidious of these is hepatic fibrosis (scarring), which, along with liver regeneration, eventually le ....Chronic liver disease is a major cause of death and ill health on a word-wide scale. Several common liver diseases, such as hepatitis B, hepatitis C and non-alcoholic steatohepatitis (fatty liver disease not due to alcohol), are capable of causing protracted liver damage. Irrespective of the cause of injury, the liver has a very narrow way of responding to chronic damage. The most important and insidious of these is hepatic fibrosis (scarring), which, along with liver regeneration, eventually leads to cirrhosis if the injurious process is sufficiently intense and sustained. Liver cirrhosis is the precursor to several undesirable complications of liver disease, most notably primary liver cancer (also called hepatoma), liver failure and severe bleeding from the gut. Therefore, it is not surprising that effective strategies to control liver injury and prevent cirrhosis have been called the holy grail of liver research. To date the only therapies for substantially improving the outcome of patients with chronic liver disease are those that halt or remove the cause of injury. Unfortunately, in many cases it is still not possible to remove or effectively treat the cause of injury. Because of this there is intense interest in therapies that might favourably alter the response of the liver to injury and especially in those that may retard or inhibit scarring and prevent cirrhosis. Nuclear receptors are sensors that control many aspects of the body's metabolism, especially the metabolism of cholesterol and fat. Recently, our work and that of others has suggested that some nuclear receptors may play a vital role in how the liver responds to damage and whether the liver will the scar and move on to cirrhosis. Our experiments will determine if this is so, and which of the several nuclear receptors likely to be involved are the important ones. We will then extend these studies to see if drugs that activate these receptors will improve or prevent severe liver disease.Read moreRead less