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Spatiotemporal, optogenetic control of gene expression in organoids.

Ivano LegniniLisa EmmeneggerAlessandra ZappuloAgnieszka Rybak-WolfRicardo WurmusAnna Oliveras MartinezCledi Alicia Cerda JaraAnastasiya BoltengagenTalé HesslerGuido MastrobuoniStefan KempaRobert ZinzenAndrew WoehlerNikolaus Rajewsky
Published in: Nature methods (2023)
Organoids derived from stem cells have become an increasingly important tool for studying human development and modeling disease. However, methods are still needed to control and study spatiotemporal patterns of gene expression in organoids. Here we combined optogenetics and gene perturbation technologies to activate or knock-down RNA of target genes in programmable spatiotemporal patterns. To illustrate the usefulness of our approach, we locally activated Sonic Hedgehog (SHH) signaling in an organoid model for human neurodevelopment. Spatial and single-cell transcriptomic analyses showed that this local induction was sufficient to generate stereotypically patterned organoids and revealed new insights into SHH's contribution to gene regulation in neurodevelopment. With this study, we propose optogenetic perturbations in combination with spatial transcriptomics as a powerful technology to reprogram and study cell fates and tissue patterning in organoids.
Keyphrases
  • single cell
  • gene expression
  • stem cells
  • induced pluripotent stem cells
  • rna seq
  • dna methylation
  • genome wide
  • cell therapy
  • copy number
  • bone marrow
  • genome wide identification