Innovation in Insulin-Producing Cells

A University of Alberta team has developed a new step to improve the process for creating insulin-producing pancreatic cells from a patient’s own stem cells, bringing the prospect of injection-free treatment closer for people with diabetes.

The researchers take stem cells from a single patient’s blood and chemically wind them back in time, then forward again in a process called “directed differentiation,” to eventually become insulin-producing cells.

In research published this month, the team treated pancreatic progenitor cells with an anti-tumour drug known as AKT/P70 inhibitor AT7867. They report the method produced the desired cells at a rate of 90 per cent, compared with previous methods that produced just 60 per cent target cells. The new cells were less likely to produce unwanted cysts and led to insulin injection-free glucose control in half the time when transplanted into mice. The team believes its efforts will soon be able to eliminate the final five to 10 per cent of cells that do not result in pancreatic cells.

The researchers suggest this safer and more reliable way to grow insulin-producing cells from a patient’s own blood could eventually allow transplants without the need for anti-rejection drugs. Recipients of donated cells must take anti-rejection drugs for life, and the therapy is limited by the small number of donated organs available.

Shapiro says further safety and efficacy studies will need to be carried out before transplantation of stem-cell-derived islet cells is ready for human trials, but he is excited by the progress.


Sources:

Nerea Cuesta-Gomez, Kevin Verhoeff, Nidheesh Dadheech, Rena Pawlick, Braulio Marfil-Garza, Haide Razavy, A.M. James Shapiro. AT7867 promotes pancreatic progenitor differentiation of human iPSCs. Stem Cell Reports, 2023; DOI: 10.1016/j.stemcr.2023.10.005

University of Alberta. (2023, November 6). A step closer to injection-free diabetes care: Innovation in insulin-producing cells. ScienceDaily. Retrieved November 6, 2023 from www.sciencedaily.com/releases/2023/11/231106134753.htm

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