Generation of region-specific and high-purity neurons from human feeder-free iPSCs

Tsukika Sato, Kent Imaizumi, Hirotaka Watanabe, Mitsuru Ishikawa, Hideyuki Okano

Research output: Contribution to journalArticlepeer-review

10 Citations (Scopus)


Human induced pluripotent stem cells (iPSCs) have great potential to elucidate the molecular pathogenesis of neurological/psychiatric diseases. In particular, neurological/psychiatric diseases often display brain region-specific symptoms, and the technology for generating region-specific neural cells from iPSCs has been established for detailed modeling of neurological/psychiatric disease phenotypes in vitro. On the other hand, recent advances in culturing human iPSCs without feeder cells have enabled highly efficient and reproducible neural induction. However, conventional regional control technologies have mainly been developed based on on-feeder iPSCs, and these methods are difficult to apply to feeder-free (ff) iPSC cultures. In this study, we established a novel culture system to generate region-specific neural cells from human ff-iPSCs. This system is the best optimized approach for feeder-free iPSC culture and generates specific neuronal subtypes with high purity and functionality, including forebrain cortical neurons, forebrain interneurons, midbrain dopaminergic neurons, and spinal motor neurons. In addition, the temporal patterning of cortical neuron layer specification in the forebrain was reproduced in our culture system, which enables the generation of layer-specific cortical neurons. Neuronal activity was demonstrated in the present culture system by using multiple electrode array and calcium imaging. Collectively, our ff-iPSC-based culture system would provide a desirable platform for modeling various types of neurological/psychiatric disease phenotypes.

Original languageEnglish
Article number135676
JournalNeuroscience Letters
Publication statusPublished - 2021 Feb 16


  • Feeder-free iPSCs
  • Neural differentiation
  • Regional identity control

ASJC Scopus subject areas

  • General Neuroscience


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