Issue 12, 2022

Biophysical quantification of reorganization dynamics of human pancreatic islets during co-culture with adipose-derived stem cells

Abstract

Islet transplantation is a potential therapy for type 1 diabetes, but it is expensive due to limited pancreas donor numbers and the variability in islet quality. The latter is often addressed by co-culture of harvested islets with stem cells to promote in vitro remodeling of their basement membrane and enable expression of angiogenic factors for enhancing vascularization. However, given the heterogeneity in islet size, shape and function, there is a need for metrics to assess the reorganization dynamics of single islets over the co-culture period. Based on shape-evolution of individual multi-cell aggregates formed during co-culture of human islets with adipose derived stem cells and the pressures required for their bypass through microfluidic constrictions, we present size-normalized biomechanical metrics for monitoring the reorganization. Aggregates below a threshold size exhibit faster reorganization, as evident from rise in their biomechanical opacity and tightening of their size distribution, but this size threshold increases over culture time to include a greater proportion of the aggregates. Such biomechanical metrics can quantify the subpopulation of reorganized aggregates by distinguishing them versus those with incomplete reorganization, over various timepoints during the co-culture.

Graphical abstract: Biophysical quantification of reorganization dynamics of human pancreatic islets during co-culture with adipose-derived stem cells

Supplementary files

Article information

Article type
Paper
Submitted
04 Feb 2022
Accepted
10 May 2022
First published
11 May 2022

Analyst, 2022,147, 2731-2738

Author version available

Biophysical quantification of reorganization dynamics of human pancreatic islets during co-culture with adipose-derived stem cells

K. Torres-Castro, M. S. Azimi, W. B. Varhue, C. Honrado, S. M. Peirce and N. S. Swami, Analyst, 2022, 147, 2731 DOI: 10.1039/D2AN00222A

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