Methods and Protocols (Jul 2021)

A Multistep Workflow to Evaluate Newly Generated iPSCs and Their Ability to Generate Different Cell Types

  • Carol X.-Q. Chen,
  • Narges Abdian,
  • Gilles Maussion,
  • Rhalena A. Thomas,
  • Iveta Demirova,
  • Eddie Cai,
  • Mahdieh Tabatabaei,
  • Lenore K. Beitel,
  • Jason Karamchandani,
  • Edward A. Fon,
  • Thomas M. Durcan

DOI
https://doi.org/10.3390/mps4030050
Journal volume & issue
Vol. 4, no. 3
p. 50

Abstract

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Induced pluripotent stem cells (iPSCs) derived from human somatic cells have created new opportunities to generate disease-relevant cells. Thus, as the use of patient-derived stem cells has become more widespread, having a workflow to monitor each line is critical. This ensures iPSCs pass a suite of quality-control measures, promoting reproducibility across experiments and between labs. With this in mind, we established a multistep workflow to assess our newly generated iPSCs. Our workflow tests four benchmarks: cell growth, genomic stability, pluripotency, and the ability to form the three germline layers. We also outline a simple test for assessing cell growth and highlight the need to compare different growth media. Genomic integrity in the human iPSCs is analyzed by G-band karyotyping and a qPCR-based test for the detection of common karyotypic abnormalities. Finally, we confirm that the iPSC lines can differentiate into a given cell type, using a trilineage assay, and later confirm that each iPSC can be differentiated into one cell type of interest, with a focus on the generation of cortical neurons. Taken together, we present a multistep quality-control workflow to evaluate newly generated iPSCs and detail the findings on these lines as they are tested within the workflow.

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