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Variation of Human Neural Stem Cells Generating Organizer States In Vitro before Committing to Cortical Excitatory or Inhibitory Neuronal Fates

Nicola Micali, Suel–Kee Kim, Marcelo Diaz-Bustamante, Genevieve Stein-O’Brien, Seungmae Seo, Joo Heon Shin, Brian G. Rash, Shaojie Ma, Yanhong Wang, Nicolas A. Olivares, Jon I. Arellano, Kristen R. Maynard, Elana J. Fertig, A.J. Cross, Roland W. Bürli, Nicholas J. Brandon, Daniel R. Weinberger, Joshua G. Chenoweth, Daniel J. Hoeppner, Nenad Šestan, Pasko Rakić, Carlo Colantuoni, Ronald D.G. McKay

2020Cell Reports33 citationsDOIOpen Access PDF

Abstract

Better understanding of the progression of neural stem cells (NSCs) in the developing cerebral cortex is important for modeling neurogenesis and defining the pathogenesis of neuropsychiatric disorders. Here, we use RNA sequencing, cell imaging, and lineage tracing of mouse and human in vitro NSCs and monkey brain sections to model the generation of cortical neuronal fates. We show that conserved signaling mechanisms regulate the acute transition from proliferative NSCs to committed glutamatergic excitatory neurons. As human telencephalic NSCs develop from pluripotency in vitro, they transition through organizer states that spatially pattern the cortex before generating glutamatergic precursor fates. NSCs derived from multiple human pluripotent lines vary in these early patterning states, leading differentially to dorsal or ventral telencephalic fates. This work furthers systematic analyses of the earliest patterning events that generate the major neuronal trajectories of the human telencephalon.

Topics & Concepts

GlutamatergicNeuroscienceNeurogenesisInduced pluripotent stem cellBiologyNeural stem cellCerebrumExcitatory postsynaptic potentialHuman brainInhibitory postsynaptic potentialCerebral cortexCortex (anatomy)Stem cellCell biologyGlutamate receptorEmbryonic stem cellGeneCentral nervous systemGeneticsReceptorNeurogenesis and neuroplasticity mechanismsSingle-cell and spatial transcriptomicsRNA Research and Splicing
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