Developmental Emergence of Adult Neural Stem Cells as Revealed by Single-Cell Transcriptional Profiling

Developmental Emergence of Adult Neural Stem Cells as Revealed by Single-Cell Transcriptional Profiling

Adult neural stem cells (NSCs) derive from embryonic precursors, but little is known about how or when this occurs. We have addressed this issue using single-cell RNA sequencing at multiple developmental time points to analyze the embryonic murine cortex, one source of adult forebrain NSCs. We compu...

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Bibliographic Details
Published in:Cell reports (Cambridge) 2017-12, Vol.21 (13), p.3970-3986
Main Authors: Yuzwa, Scott A., Borrett, Michael J., Innes, Brendan T., Voronova, Anastassia, Ketela, Troy, Kaplan, David R., Bader, Gary D., Miller, Freda D.
Format: Article
Language:eng
Subjects:
cortex
development
Drop-seq
intermediate progenitors
neural stem cells
neurogenesis
radial precursors
single-cell RNA-seq
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Summary:Adult neural stem cells (NSCs) derive from embryonic precursors, but little is known about how or when this occurs. We have addressed this issue using single-cell RNA sequencing at multiple developmental time points to analyze the embryonic murine cortex, one source of adult forebrain NSCs. We computationally identify all major cortical cell types, including the embryonic radial precursors (RPs) that generate adult NSCs. We define the initial emergence of RPs from neuroepithelial stem cells at E11.5. We show that, by E13.5, RPs express a transcriptional identity that is maintained and reinforced throughout their transition to a non-proliferative state between E15.5 and E17.5. These slowly proliferating late embryonic RPs share a core transcriptional phenotype with quiescent adult forebrain NSCs. Together, these findings support a model wherein cortical RPs maintain a core transcriptional identity from embryogenesis through to adulthood and wherein the transition to a quiescent adult NSC occurs during late neurogenesis. [Display omitted] •Single-cell RNA-seq identifies transcriptional profiles of cortical precursors•Radial precursors (RPs) express a core identity reinforced throughout development•RPs adopt a non-proliferative state during late neurogenesis•RPs share a transcriptional core identity with adult B1 neural stem cells Yuzwa et al. use single-cell RNA-seq to define the transcriptional identity of precursor cells in the embryonic mouse cortex and, in so doing, characterize the developmental emergence of adult forebrain neural stem cells.
ISSN:2211-1247
2211-1247