- 作者:Paul Bourgine ; Clementine Le Magnen ; Sebastien Pigeot ; Jeroen Geurts ; Arnaud Scherberich ; Ivan Martin ; imartin@uhbs.ch" class="auth_mail
- 刊名:Stem Cell Research
- 出版年:March, 2014
- 年:2014
- 卷:12
- 期:2
- 页码:584-598
- 全文大小:1757 K
Here we report a method to generate a hMSCs line with controlled survival, through the implementation of a pre-established suicide system (inducible caspase 9, iCasp9) in hTERT-transduced hMSCs.
Primary hMSCs were successfully immortalized (> 280 PD) and further transduced with the iCasp9 device. A clone was selected and shown to maintain typical properties of primary hMSCs, including phenotype, differentiation and immunomodulation capacities. The successive transductions did not induce tumorigenic transformation, as assessed by analysis of cell cycle regulators and in vivo luciferase-based cell tracking. Cells could be efficiently induced toward apoptosis (> 95%) both in vitro and in vivo.
By combining the opposite concepts of 鈥榠nduced-life鈥?and 鈥榠nducible-death鈥? we generated a hMSCs line with defined properties and allowing for temporally controlled survival. The cell line represents a relevant tool for medical discovery in regenerative medicine and a potential means to address availability, standardization and safety requirements in cell & gene therapy. The concept of a hTERT-iCasp9 combination, here explored in the context of hMSCs, could be extended to other types of progenitor/stem cells.