Human iPS cell-derived fibroblast-like cells as feeder layers for iPS cell derivation and expansion.

Mouse embryonic fibroblasts (MEFs) are commonly used as feeder cells for the generation of human induced pluripotent stem cells (hiPSCs). However, medical applications of cell derivatives of hiPSCs generated with a MEF feeder system run the risk of having xeno-factor contamination due to long-term cell culturing under an animal factor-containing environment. We developed a new method for the derivation of human fibroblast-like cells (FLCs) from a previously established hiPSC line in an FLC differentiation medium. The method was based on direct differentiation of hiPSCs seeded on Matrigel followed by expansion of differentiating cells on gelatin. Using inactivated FLCs as feeder layers, primary human foreskin fibroblasts were successfully reprogrammed into a state of pluripotency by Oct4, Sox2 Klf4, and c-Myc (OSKM) transcription factor genes, with a reprogramming efficiency under an optimized condition superior to that obtained on MEF feeder layers. Furthermore, the FLCs were more effective in supporting the growth of human pluripotent stem cells. The pluripotency and differentiation capability of the cells cultured on FLC feeder layers were well retained. Our results suggest that FLCs are a safe alternative to MEFs for hiPSC generation and expansion, especially in the clinical settings wherein hiPSC derivatives will be used for medical treatment.

Du SH ，Tay JC ，Chen C ，Tay FC ，Tan WK ，Li ZD ，Wang S ... -  《-》

Reduction of N-glycolylneuraminic acid in human induced pluripotent stem cells generated or cultured under feeder- and serum-free defined conditions.

Hayashi Y ，Chan T ，Warashina M ，Fukuda M ，Ariizumi T ，Okabayashi K ，Takayama N ，Otsu M ，Eto K ，Furue MK ，Michiue T ，Ohnuma K ，Nakauchi H ，Asashima M ... -  《PLoS One》

Development of a Xeno-Free Feeder-Layer System from Human Umbilical Cord Mesenchymal Stem Cells for Prolonged Expansion of Human Induced Pluripotent Stem Cells in Culture.

Zou Q ，Wu M ，Zhong L ，Fan Z ，Zhang B ，Chen Q ，Ma F ... -  《PLoS One》

Generation of human induced pluripotent stem (Ips) cells in serum- and feeder-free defined culture and TGF-Β1 regulation of pluripotency.

Yamasaki S ，Taguchi Y ，Shimamoto A ，Mukasa H ，Tahara H ，Okamoto T ... -  《PLoS One》

Establishment and growth responses of Nile tilapia embryonic stem-like cell lines under feeder-free condition.

Embryonic stem (ES) cells provide an invaluable tool for molecular analysis of vertebrate development and a bridge linking genomic manipulations in vitro and functional analysis of target genes in vivo. Work towards fish ES cells so far has focused on zebrafish (Danio renio) and medaka (Oryzias latipes). Here we describe the derivation, pluripotency, differentiation and growth responses of ES cell lines from Nile tilapia (Oreochromis niloticus), a world-wide commercial farmed fish. These cell lines, designated as TES1-3, were initiated from blastomeres of Nile tilapia middle blastula embryos (MBE). One representative line, TES1, showed stable growth and phenotypic characteristics of ES cells over 200 days of culture with more than 59 passages under feeder-free conditions. They exhibited high alkaline phosphatase activity and expression of pluripotency genes including pou5f3 (the pou5f1/oct4 homologue), sox2, myc and klf4. In suspension culture together with retinoic acid treatment, TES1 cells formed embryoid bodies, which exhibited expression profile of differentiation genes characteristics of all three germ cell layers. Notably, PKH26-labeled TES1 cells introduced into Nile tilapia MBE could contribute to body compartment development and led to hatched chimera formation with an efficacy of 13%. These results suggest that TES1 cells have pluripotency and differentiation potential in vitro and in vivo. In the conditioned DMEM, all of the supplements including the fetal bovine serum, fish embryonic extract, fish serum, basic fibroblast growth factor and non-protein supplement combination 5N were mitogenic for TES1 cell growth. This study will promote ES-based biotechnology in commercial fish.

Fan Z ，Liu L ，Huang X ，Zhao Y ，Zhou L ，Wang D ，Wei J ... -  《-》