Frontiers in Molecular Neuroscience (May 2023)

Different iPSC-derived neural stem cells shows various spectrums of spontaneous differentiation during long term cultivation

  • Adelya Albertovna Galiakberova,
  • Adelya Albertovna Galiakberova,
  • Olga Igorevna Brovkina,
  • Nikolay Vitalyevich Kondratyev,
  • Alexander Sergeevich Artyuhov,
  • Ekaterina Dmitrievna Momotyuk,
  • Olga Nikolaevna Kulmukhametova,
  • Alexey Aleksandrovich Lagunin,
  • Alexey Aleksandrovich Lagunin,
  • Boris Vladimirovich Shilov,
  • Anton Dmitrievich Zadorozhny,
  • Igor Sergeevitch Zakharov,
  • Larisa Sergeevna Okorokova,
  • Vera Evgenievna Golimbet,
  • Erdem Bairovich Dashinimaev,
  • Erdem Bairovich Dashinimaev,
  • Erdem Bairovich Dashinimaev

DOI
https://doi.org/10.3389/fnmol.2023.1037902
Journal volume & issue
Vol. 16

Abstract

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IntroductionCulturing of human neural stem cells (NSCs) derived from induced pluripotent stem cells (iPSC) is a promising area of research, as these cells have the potential to treat a wide range of neurological, neurodegenerative and psychiatric diseases. However, the development of optimal protocols for the production and long-term culturing of NSCs remains a challenge. One of the most important aspects of this problem is to determine the stability of NSCs during long-term in vitro passaging. To address this problem, our study was aimed at investigating the spontaneous differentiation profile in different iPSC-derived human NSCs cultures during long-term cultivation using.MethodsFour different IPSC lines were used to generate NSC and spontaneously differentiated neural cultures using DUAL SMAD inhibition. These cells were analyzed at different passages using immunocytochemistry, qPCR, bulk transcriptomes and scRNA-seq.ResultsWe found that various NSC lines generate significantly different spectrums of differentiated neural cells, which can also change significantly during long-term cultivation in vitro.DiscussionOur results indicate that both internal (genetic and epigenetic) and external (conditions and duration of cultivation) factors influence the stability of NSCs. These results have important implications for the development of optimal NSCs culturing protocols and highlight the need to further investigate the factors influencing the stability of these cells in vitro.

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