Animal Cells and Systems (Dec 2023)
Plate-curving cell culture as a model for assessing curvature-induced cellular responses during neural tube morphogenesis
Abstract
ABSTRACTNeurulation is an important shape-transforming event during embryonic development where a flat neural plate is converted into a neural tube. Failure in this morphogenetic process accounts for one of the most common birth defects. Mechanical biology has provided key insights into neural tube formation and curvature among many physical properties that are eliciting attention. However, the lack of a proper model to study the effect of curvature has limited the potential to reveal its role in neurulation. In this study, we introduce a novel cell culture method called plate-curving cell culture where a polydimethylsiloxane (PDMS) plate of desired physical properties is curved in either a concave or convex form while the human pluripotent stem cell culture induced to have early neural plate identity is placed on top of its surface. With this method, we observed the elongation of cell colony morphology, as well as the perpendicular alignment of the cell division axis in the concave surface; the oriented cell division does not seem to explain the colony elongation. Transcriptome comparison in search of alternate possibilities suggested selectively altered pathways in the concave surface culture. Our new method is widely available, easy-to-use and culture-friendly, facilitating future mechanobiological studies of neurulation.
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