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Spheroid Fabrication Using Concave Microwells Enhances the Differentiation Efficacy and Function of Insulin-Producing Cells via Cytoskeletal Changes. | LitMetric

AI Article Synopsis

  • Pancreatic islet transplantation is the primary treatment for insulin-dependent diabetes, but a shortage of donors limits its availability.
  • Researchers developed differentiated insulin-producing cells (DIPCs) and created spheroids using concave microwells for better growth and function.
  • Spheroid-transplanted cells in diabetic mice showed lower blood glucose levels and improved efficiency compared to single-cell DIPCs, suggesting that this method enhances the effectiveness of potential diabetes treatments.

Article Abstract

Pancreatic islet transplantation is the fundamental treatment for insulin-dependent diabetes; however, donor shortage is a major hurdle in its use as a standard treatment. Accordingly, differentiated insulin-producing cells (DIPCs) are being developed as a new islet source. Differentiation efficiency could be enhanced if the spheroid structure of the natural islets could be recapitulated. Here, we fabricated DIPC spheroids using concave microwells, which enabled large-scale production of spheroids of the desired size. We prepared DIPCs from human liver cells by trans-differentiation using transcription factor gene transduction. Islet-related gene expression and insulin secretion levels were higher in spheroids compared to those in single-cell DIPCs, whereas actin-myosin interactions significantly decreased. We verified actin-myosin-dependent insulin expression in single-cell DIPCs by using actin-myosin interaction inhibitors. Upon transplanting cells into the kidney capsule of diabetic mouse, blood glucose levels decreased to 200 mg/dL in spheroid-transplanted mice but not in single cell-transplanted mice. Spheroid-transplanted mice showed high engraftment efficiency in in vivo fluorescence imaging. These results demonstrated that spheroids fabricated using concave microwells enhanced the engraftment and functions of DIPCs via actin-myosin-mediated cytoskeletal changes. Our strategy potentially extends the clinical application of DIPCs for improved differentiation, glycemic control, and transplantation efficiency of islets.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7768489PMC
http://dx.doi.org/10.3390/cells9122551DOI Listing

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