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Derivation of iPSCs in stirred suspension bioreactors

Abstract

Induced pluripotent stem cells (iPSCs) are typically derived in adherent culture. Here we report fast and efficient derivation of mouse iPSCs in stirred suspension bioreactors, with and without the use of c-Myc. Suspension-reprogrammed cells expressed pluripotency markers, showed multilineage differentiation in vitro and in vivo, and contributed to the germline in chimeric mice. Suspension reprogramming has the potential to accelerate and standardize iPSC research.

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Figure 1: Expansion and characterization of SiPSCs.
Figure 2: Developmental potential of 3F-SiPSCs.

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Acknowledgements

We acknowledge members of The Clara Christie Centre for Mouse Genomics for helping us to derive 129/Sv MEFs and SiPSC chimeras. This research was supported by a Canadian Institute of Health Research Regenerative Medicine and Nanomedicine Team grant (RMF-82497).

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Contributions

M.S. designed the project, generated and characterized SiPSCs and prepared the manuscript; B.D. performed confocal microscopy and qPCR and prepared the manuscript; A.Y., G.M. and S.L. characterized SiPSCs, R.K. and D.E.R. designed the project and prepared the manuscript.

Corresponding author

Correspondence to Derrick E Rancourt.

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The authors declare no competing financial interests.

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Supplementary Figures 1–3, Supplementary Tables 1–6 (PDF 339 kb)

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Shafa, M., Day, B., Yamashita, A. et al. Derivation of iPSCs in stirred suspension bioreactors. Nat Methods 9, 465–466 (2012). https://doi.org/10.1038/nmeth.1973

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