Which Transgenic Pig Will Be Used For Islet Transplantation In Humans?
Funder
National Health and Medical Research Council
Funding Amount
$3,031,083.00
Summary
We propose that xenotransplantation of pig islets will cure Type 1 diabetes. This program will generate genetically modified pigs to overcome the molecular differences between pigs and humans by removing a pig gene and inserting several human genes. In addition, we will add immunosuppressive genes and so minimise the need for drug treatment of the diabetic recipient. We will test our hypothesis by transplanting islets from these genetically modified pigs into baboons. We suggest that this will p ....We propose that xenotransplantation of pig islets will cure Type 1 diabetes. This program will generate genetically modified pigs to overcome the molecular differences between pigs and humans by removing a pig gene and inserting several human genes. In addition, we will add immunosuppressive genes and so minimise the need for drug treatment of the diabetic recipient. We will test our hypothesis by transplanting islets from these genetically modified pigs into baboons. We suggest that this will provide an inexhaustible supply of islets for transplantation.Read moreRead less
A Preclinical Model Of Pig Islet Xenotransplantation As Treatment For Type 1 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$4,380,000.00
Summary
The object of this multi-disciplinary program grant is to develop a source of pig insulin secreting tissue that will be used to treat type 1 diabetic patients. At present the number of diabetic patients that would benefit from islet transplantation far outnumber any human source of this tissue. Pigs that have been genetically altered to avoid rejection and enhance survival could overcome this donor shortage problem.. It is our belief that with the appropriate genetic modification pig insulin-sec ....The object of this multi-disciplinary program grant is to develop a source of pig insulin secreting tissue that will be used to treat type 1 diabetic patients. At present the number of diabetic patients that would benefit from islet transplantation far outnumber any human source of this tissue. Pigs that have been genetically altered to avoid rejection and enhance survival could overcome this donor shortage problem.. It is our belief that with the appropriate genetic modification pig insulin-secreting tissue can avoid the aggressive rejection response that occurs with xenographs and provide normal blood glucose control without insulin. This project concentrates on the five main issues that need to be overcome before pig insulin-secreting tissue can be used in diabetics. These are: identifying the best source of insulin secreting tissue to use; adult islets, newborn or foetal islet cell clusters; overcoming the strong rejection response to pig tissue; identifying a safe and effective immunosuppressive regime; producing a new types of genetically modified pigs that will provide islets tissue that will work in humans; and demonstrating that pig islet transplantation will not pose undue infective risks for the patient or community. This truly collaborative program grant has brought together a large group of investigators with strong research records in diabetes, islet transplantation, xenotransplantation, pig transgenesis and pig genetics and includes scientists and clinicians who look after diabetic patients. Unique pig resources will be used including genetically manipulated pigs that have been shown to avoid some of the rejection mechanisms associated with transplanting pig tissue. There is a captive-bred baboon colony that provided a unique model of diabetes. A world class pig transgenesis facility has been enlisted to generate new lines of genetically altered pigs as new data is produced within the group. Finally because of the involvement of the National Pancreas Transplant Unit any proven therapeutic strategy can be brought quickly to clinical trials.Read moreRead less
Transplantation of pancreatic islets is the only cure for type 1 diabetes (T1D). Unfortunately, many of the transplanted islet cells die quickly due to an inadequate supply of blood. Herein, we investigate a novel cell surface protein for its role in islet and blood vessel survival and function. Furthermore, we use nanotechnology to provide said protein to the islet cells during transplantation for increased survival and function. Ultimately, this work may cure more patients with diabetes.
Control Of Human ? Cell Differentiation And Function
Funder
National Health and Medical Research Council
Funding Amount
$616,979.00
Summary
Diabetes is a condition in which the body is unable to regulate the level of glucose in the blood. Blood glucose is normally controlled by a particular cell type, the beta cell, which is found in the pancreas. In diabetes, this cell is either missing or does not function correctly. This project will produce human beta cells in the laboratory that can be used to find out what goes wrong in diabetes.