PLoS Biology (Oct 2019)

High-throughput micropatterning platform reveals Nodal-dependent bisection of peri-gastrulation-associated versus preneurulation-associated fate patterning.

  • Mukul Tewary,
  • Dominika Dziedzicka,
  • Joel Ostblom,
  • Laura Prochazka,
  • Nika Shakiba,
  • Tiam Heydari,
  • Daniel Aguilar-Hidalgo,
  • Curtis Woodford,
  • Elia Piccinini,
  • David Becerra-Alonso,
  • Alice Vickers,
  • Blaise Louis,
  • Nafees Rahman,
  • Davide Danovi,
  • Mieke Geens,
  • Fiona M Watt,
  • Peter W Zandstra

DOI
https://doi.org/10.1371/journal.pbio.3000081
Journal volume & issue
Vol. 17, no. 10
p. e3000081

Abstract

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In vitro models of postimplantation human development are valuable to the fields of regenerative medicine and developmental biology. Here, we report characterization of a robust in vitro platform that enabled high-content screening of multiple human pluripotent stem cell (hPSC) lines for their ability to undergo peri-gastrulation-like fate patterning upon bone morphogenetic protein 4 (BMP4) treatment of geometrically confined colonies and observed significant heterogeneity in their differentiation propensities along a gastrulation associable and neuralization associable axis. This cell line-associated heterogeneity was found to be attributable to endogenous Nodal expression, with up-regulation of Nodal correlated with expression of a gastrulation-associated gene profile, and Nodal down-regulation correlated with a preneurulation-associated gene profile expression. We harness this knowledge to establish a platform of preneurulation-like fate patterning in geometrically confined hPSC colonies in which fates arise because of a BMPs signalling gradient conveying positional information. Our work identifies a Nodal signalling-dependent switch in peri-gastrulation versus preneurulation-associated fate patterning in hPSC cells, provides a technology to robustly assay hPSC differentiation outcomes, and suggests conserved mechanisms of organized fate specification in differentiating epiblast and ectodermal tissues.