Cells from umbilical cords re-programmed to create pancreatic islets

Australian researchers have used human stem cells to create viable glucose-responsive pancreatic islets that may overcome the limitations of current islet transplantation methods.

Islet cells developed at the Westmead Institute for Medical Research’s Storr Liver Centre have shown biological activity when transplanted in animal studies, according to initial results, published in Nature.

The stem cell derived islets have the advantage over human pancreatic islet transplantation of being less immunogenic and thus avoiding transplant rejection and the need for recipients to take immunosuppressant drugs for the rest of their life, the researchers say.

Investigator Professor Chris Liddle says their laboratory used stem cells derived from human umbilical vein and human fat that were re-programmed to generate ‘Human Islet-Like Organoids’ (HILOs).

“Pancreatic islets contain multiple cell types, not just insulin-producing beta cells. The research team created three-dimensional HILOs that not only include beta-like cells (the cells that produce, store and release insulin in the islets of the pancreas), but also other supporting cell types found in normal islets,” he explained.

“Under the microscope, and using gene sequencing analysis, we are able to show that the three-dimensional HILOs are very similar to human islets. When the HILOs are transplanted into diabetic mice, they secrete insulin when blood glucose levels are high, just as normal islets would.”

Human pancreatic islet transplantation is funded by the Australian Government, but because of its limitations is currently limited to people with severely unstable type 1 diabetes who experience recurrent and severe hypoglycaemic episodes.

The latest development was welcomed by Professor Philip O’Connell, Executive Director at the Westmead Institute for Medical Research, who led Australia’s first pancreatic islet transplantation trials 20 years ago.

Professor O’Connell, who was not involved in this research study, said human pancreatic islet transplantation has saved hundreds of lives but has limitations.  For example, pancreatic islets are taken from deceased donors, and the wait for donor islets can be lengthy. Once donor islets are obtained, not all are suitable for transplantation.

“This research indicates the potential to alleviate some of these issues.  Stem cells derived from readily available human tissues can be expanded then re-programmed into potentially unlimited numbers of islets that are suitable for transplantation,” he said.

Prof Liddle acknowledged that more research is needed before this approach is ready for human clinical trials.

“We believe this is a significant step toward an injection-free or device-free future for people with type 1 diabetes,” he said.

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