Abstract
Introduction
iPSCs represent a promising cell source for bone regeneration. To generate osteoprogenitor cells, most protocols use the generation of embryoid bodies (EBs). However, these protocols give rise to heterogeneous population of different cell lineage.
Hypothesis
We hypothesized that a direct plating method without EB formation step could be an efficient protocol for generating a homogeneous population of osteoprogenitor cells from iPSCs.
Materials & Methods
Murine iPSC colonies were dissociated with trypsin-EDTA, and obtained single cells were cultured on gelatin-coated plates in MSC medium and FGF-2. Adherent cells obtained by this direct-plating technique were termed as direct-plated cells (DPCs). DPCs were evaluated for cell-surface protein expression using flow cytometry. Expression levels of Oct-3/4 mRNA in iPSCs and DPCs were analyzed by real-time PCR. DPCs were cultured for 14 days in osteogenic medium. Osteogenic differentiation was evaluated by alkaline phosphatase (ALP) activity, real-time PCR, and alizarin red S staining.
Results
Expression level of Oct-3/4 in DPCs was robustly down-regulated compared to that in iPSCs. Flow cytometry analysis revealed DPCs had similar characteristics to MSC, suggesting DPCs lost pluripotency. Moreover, the DPCs exhibited high osteogenic potential.
Discussion & Conclusion
Our novel direct plating method in the absence of EB formation step could be amenable to large-scale production of osteoprogenitor cells for bone regeneration.
