Authors
Duncan E Crombie, Maciej Daniszewski, Helena H Liang, Tejal Kulkarni, Fan Li, Grace E Lidgerwood, Alison Conquest, Damian Hernández, Sandy S Hung, Katherine P Gill, Elisabeth De Smit, Lisa S Kearns, Linda Clarke, Valentin M Sluch, Xitiz Chamling, Donald J Zack, Raymond CB Wong, Alex W Hewitt, Alice Pébay
Publication date
2017/9
Journal
Slas Discovery: Advancing Life Sciences R&D
Volume
22
Issue
8
Pages
1016-1025
Publisher
Sage Publications
Description
Patient-specific induced pluripotent stem cells (iPSCs) have tremendous potential for development of regenerative medicine, disease modeling, and drug discovery. However, the processes of reprogramming, maintenance, and differentiation are labor intensive and subject to intertechnician variability. To address these issues, we established and optimized protocols to allow for the automated maintenance of reprogrammed somatic cells into iPSCs to enable the large-scale culture and passaging of human pluripotent stem cells (PSCs) using a customized TECAN Freedom EVO. Generation of iPSCs was performed offline by nucleofection followed by selection of TRA-1-60–positive cells using a Miltenyi MultiMACS24 Separator. Pluripotency markers were assessed to confirm pluripotency of the generated iPSCs. Passaging was performed using an enzyme-free dissociation method. Proof of concept of differentiation …
Scholar articles
DE Crombie, M Daniszewski, HH Liang, T Kulkarni, F Li… - Slas Discovery: Advancing Life Sciences R&D, 2017