Cells (Jun 2020)

Cell Type-Specific In Vitro Gene Expression Profiling of Stem Cell-Derived Neural Models

  • James A. Gregory,
  • Emily Hoelzli,
  • Rawan Abdelaal,
  • Catherine Braine,
  • Miguel Cuevas,
  • Madeline Halpern,
  • Natalie Barretto,
  • Nadine Schrode,
  • Güney Akbalik,
  • Kristy Kang,
  • Esther Cheng,
  • Kathryn Bowles,
  • Steven Lotz,
  • Susan Goderie,
  • Celeste M. Karch,
  • Sally Temple,
  • Alison Goate,
  • Kristen J. Brennand,
  • Hemali Phatnani

DOI
https://doi.org/10.3390/cells9061406
Journal volume & issue
Vol. 9, no. 6
p. 1406

Abstract

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Genetic and genomic studies of brain disease increasingly demonstrate disease-associated interactions between the cell types of the brain. Increasingly complex and more physiologically relevant human-induced pluripotent stem cell (hiPSC)-based models better explore the molecular mechanisms underlying disease but also challenge our ability to resolve cell type-specific perturbations. Here, we report an extension of the RiboTag system, first developed to achieve cell type-restricted expression of epitope-tagged ribosomal protein (RPL22) in mouse tissue, to a variety of in vitro applications, including immortalized cell lines, primary mouse astrocytes, and hiPSC-derived neurons. RiboTag expression enables depletion of up to 87 percent of off-target RNA in mixed species co-cultures. Nonetheless, depletion efficiency varies across independent experimental replicates, particularly for hiPSC-derived motor neurons. The challenges and potential of implementing RiboTags in complex in vitro cultures are discussed.

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