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Developments in diabetes research have advanced rapidly in recent years, including new cellular technologies for directed differentiation of human pluripotent stem cells (hPSCs) into pancreatic beta cells, with the goal of using these cells for cell replacement therapy to cure type I diabetes.
This protocol spotlight highlights the work of researchers from The Salk Institute who developed a novel strategy for directly differentiating pancreatic beta cells from hPSCs that is much more efficient than previous methods. The protocol involves the combination of chemical compounds and step-wise media supplementation to generate 3D pancreatic progenitor clusters from hPSCs, and further differentiation to NKX6.1+/INS+ beta cells. Researchers found that this protocol overcomes previous limitations for generating beta cells from hPSCs, with approximately 60% to 80% efficiency from multiple hPSC lines and origins. The publication further demonstrated the functionality of the beta cells generated using this protocol, showing that cells could rapidly reverse hyperglycemia in a mouse model of diabetes.
Read more about this innovative Nature Communications publication and corresponding differentiation protocol or review our specialized reagent list below to see how Captivate Bio can support diabetes research.
Figure: HPSC-derived PPs are dissociated and re-aggregated into PP 3D clusters by centrifuge and incubation in a V-shaped-bottom microplate and then transferred to the air–liquid interface. The PPs in 3D clusters mainly differentiate into β-cells after they are successively treated by PP-10C, EP-8C, iβ-9C, and Fβ-7C. However, if other suboptimal conditions are employed, the yield of β-cells is significantly reduced, whereas that of the dual-hormonal GCG+/INS+ cells increase. Schematic from data published in Liu, H., et al. Nat Commun. 2021.
Captivate Bio Research and Protocol Spotlights are highlights written to summarize the utility of a study as well as showcasing the biological activity of a product. Always refer to the Authors and full publication or poster for more information.
Image source: This image shows functional beta cells made from human pluripotent stem cells. Insulin (red) and NKX6.1 (green) indicate two proteins produced by beta cells. The Salk Institute, June 2021.
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Learn how beta cells impact stem cell research, how they are used in regenerative medicine, and view a quick list of leading research groups working to cure Type 1 and Type 2 diabetes.
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