Regenerative Therapy (Jun 2020)

Stepwise strategy for generating osteoblasts from human pluripotent stem cells under fully defined xeno-free conditions with small-molecule inducers

  • Denise Zujur,
  • Kosuke Kanke,
  • Shoko Onodera,
  • Shoichiro Tani,
  • Jenny Lai,
  • Toshifumi Azuma,
  • Xiaonan Xin,
  • Alexander C. Lichtler,
  • David W. Rowe,
  • Taku Saito,
  • Sakae Tanaka,
  • Hideki Masaki,
  • Hiromitsu Nakauchi,
  • Ung-il Chung,
  • Hironori Hojo,
  • Shinsuke Ohba

Journal volume & issue
Vol. 14
pp. 19 – 31

Abstract

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Clinically relevant human induced pluripotent stem cell (hiPSC) derivatives require efficient protocols to differentiate hiPSCs into specific lineages. Here we developed a fully defined xeno-free strategy to direct hiPSCs toward osteoblasts within 21 days. The strategy successfully achieved the osteogenic induction of four independently derived hiPSC lines by a sequential use of combinations of small-molecule inducers. The induction first generated mesodermal cells, which subsequently recapitulated the developmental expression pattern of major osteoblast genes and proteins. Importantly, Col2.3-Cherry hiPSCs subjected to this strategy strongly expressed the cherry fluorescence that has been observed in bone-forming osteoblasts in vivo. Moreover, the protocol combined with a three-dimensional (3D) scaffold was suitable for the generation of a xeno-free 3D osteogenic system. Thus, our strategy offers a platform with significant advantages for bone biology studies and it will also contribute to clinical applications of hiPSCs to skeletal regenerative medicine.

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