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Functional maturation of human iPSC-derived pyramidal neurons in vivo is dependent on proximity with the host tissue.
Raïs, Célia; Gaspar Santos, Daniela; Sansone, Giulia; Blanchard, Stéphane; Bourgeois, Jean-Pierre; Jagla, Bernd; Saudemont, Baptiste; Schlick, Laurène; Pons, Stéphanie; Maskos, Uwe.
Afiliação
  • Raïs C; Institut Pasteur, Université de Paris Cité, Unité Neurobiologie Intégrative des Systèmes Cholinergiques, CNRS UMR 3571 "Genes, Synapses and Cognition," Paris, France.
  • Gaspar Santos D; Collège Doctoral, Sorbonne Université, Paris, France.
  • Sansone G; Institut Pasteur, Université de Paris Cité, Unité Neurobiologie Intégrative des Systèmes Cholinergiques, CNRS UMR 3571 "Genes, Synapses and Cognition," Paris, France.
  • Blanchard S; Collège Doctoral, Sorbonne Université, Paris, France.
  • Bourgeois JP; Institut Pasteur, Université de Paris Cité, Unité Neurobiologie Intégrative des Systèmes Cholinergiques, CNRS UMR 3571 "Genes, Synapses and Cognition," Paris, France.
  • Jagla B; Institut Pasteur, Université de Paris Cité, Unité Neurobiologie Intégrative des Systèmes Cholinergiques, CNRS UMR 3571 "Genes, Synapses and Cognition," Paris, France.
  • Saudemont B; Institut Pasteur, Université de Paris Cité, Human Genetics and Cognitive Functions, CNRS UMR 3571 "Genes, Synapses and Cognition," Paris, France.
  • Schlick L; Institut Pasteur, Université de Paris Cité, Cytometry and Biomarkers Unit of Technology and Service, Center for Translational Science and Bioinformatics and Biostatistics Hub-C3BI, Paris, France.
  • Pons S; Institut Pasteur, Université de Paris Cité, Cytometry and Biomarkers Unit of Technology and Service, Center for Translational Science and Bioinformatics and Biostatistics Hub-C3BI, Paris, France.
  • Maskos U; Institut Pasteur, Université de Paris Cité, Unité Neurobiologie Intégrative des Systèmes Cholinergiques, CNRS UMR 3571 "Genes, Synapses and Cognition," Paris, France.
Front Cell Neurosci ; 17: 1259712, 2023.
Article em En | MEDLINE | ID: mdl-38077953
Human induced pluripotent stem cells (hiPSCs) have been used extensively in vitro to model early events in neurodevelopment. Because of a number of shortcomings, previous work has established a potential to use these cells in vivo after transplantation into the mouse brain. Here, we describe a systematic approach for the analysis of transplanted hiPSC-derived neurons and glial cells over time in the mouse brain. Using functional two-photon imaging of GCaMP6f- expressing human neural cells, we define and quantify the embryonic-like features of their spontaneous activity. This is substantiated by detailed electron microscopy (EM) of the graft. We relate this to the synaptic development the neurons undergo up to 7 months in vivo. This system can now be used further for the genetic or experimental manipulation of developing hiPSC-derived cells addressing neurodevelopmental diseases like schizophrenia or Autism Spectrum Disorder.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Ano de publicação: 2023 Tipo de documento: Article
Texto completo
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Ano de publicação: 2023 Tipo de documento: Article