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Neural induction: Historical views and application to pluripotent stem cells

Noriaki Sasai, Minori Kadoya, Agnes Lee Chen Ong

2020Development Growth & Differentiation23 citationsDOIOpen Access PDF

Abstract

Embryonic stem (ES) cells are a useful experimental material to recapitulate the differentiation steps of early embryos, which are usually invisible and inaccessible from outside of the body, especially in mammals. ES cells have greatly facilitated the analyses of gene expression profiles and cell characteristics. In addition, understanding the mechanisms during neural differentiation is important for clinical purposes, such as developing new therapeutic methods or regenerative medicine. As neurons have very limited regenerative ability, neurodegenerative diseases are usually intractable, and patients suffer from the disease throughout their lifetimes. The functional cells generated from ES cells in vitro could replace degenerative areas by transplantation. In this review, we will first demonstrate the historical views and widely accepted concepts regarding the molecular mechanisms of neural induction and positional information to produce the specific types of neurons in model animals. Next, we will describe how these concepts have recently been applied to the research in the establishment of the methodology of neural differentiation from mammalian ES cells. Finally, we will focus on examples of the applications of differentiation systems to clinical purposes. Overall, the discussion will focus on how historical developmental studies are applied to state-of-the-art stem cell research.

Topics & Concepts

BiologyNeuroscienceEmbryonic stem cellRegenerative medicineInduced pluripotent stem cellStem cellNeural stem cellCellular differentiationNeural developmentCell typeTransplantationCognitive scienceCellCell biologyGeneGeneticsPsychologyMedicineSurgeryPluripotent Stem Cells ResearchCRISPR and Genetic EngineeringNeuroscience and Neural Engineering