From the Journals

First Patient-Derived Stem Cell Transplant a Success in T1D


 

FROM CELL

A new approach to using stem cell–derived pancreatic islets has allowed a patient with type 1 diabetes (T1D) to come off insulin for 1 year.

The chemically induced pluripotent stem cell–derived islets came from the somatic cells of the patient, a 25-year-old woman who had lived for 11 years with unstable T1D with less than 50% time-in-target glucose range despite intensive insulin therapy. By 1 year following the transplantation of the cells into her abdomen, her glucose levels were nearly 100% in range, and her hemoglobin A1c had come down from 7.4%-8.0% to nondiabetic range (~5%).

Of note, she was already under immunosuppression for a prior liver transplant and remained on it throughout. There were no major safety concerns.

“We are very encouraged by the positive clinical findings seen in this first patient using this combination of technologies. These findings set a strong foundation for further development of stem cell–derived islet transplantation as a feasible treatment modality for diabetes,” study authors Soon Yi Liew, PhD, and Hongkui Deng, PhD, both of Peking University Health Science Center, Beijing, China, told this news organization in an email. Dr. Deng, the lead author, is the director of the university’s Institute of Stem Cell Research.

The findings were published in Cell.

What’s New With This Approach?

The use of the patient’s own cells is one of several ways in which this approach differs from other ongoing efforts in treating T1D with pluripotent stem cell–derived islets, such as those of the companies Vertex and Sernova, Dr. Liew and Dr. Deng explained.

Another difference is that “the patient-specific stem cell–derived islets used in this study were produced from induced pluripotent stem cells generated using chemical reprogramming, which is a nontransgenic approach to inducing pluripotent stem cells from somatic cells that uses only small molecules, different from the conventional method of viral transduction of transcription factors. ... Employing small molecules as reprogramming factors provides a greater degree of control — small molecules have defined structures easily manufactured and standardized, are not genome integrating, and are cost effective,” Dr. Liew and Dr. Deng said.

A third difference, they noted, is the placement of the stem cell–derived islets underneath the abdominal anterior rectus sheath of the patient, as opposed to the more commonly used hepatic portal vein. In addition to better ease of visualization, prior evidence suggested that this approach could lead to an improved engraftment and graft function and could circumvent graft loss from blood-mediated inflammatory responses associated with the liver site.

Moreover, they added, “to our knowledge, the rapidity with which insulin-independence was achieved post transplantation of stem cell–derived islets, 75 days post-transplantation, is also a first.”

Immunosuppression Remains a Challenge

Asked to comment, David M. Harlan, MD, the William and Doris Krupp professor of medicine and codirector of the Diabetes Center of Excellence at the University of Massachusetts Chan Medical School, Worcester, told this news organization, “on the one hand, it seems like a great breakthrough that you could take each individual cells and use those to make islets, but ... that process takes a long time, is very, very expensive, and then the T1D recipient still needs to be immunosuppressed. From a business point of view, I just don’t see it as getting any legs.”

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