Abstract
ABSTRACTPrecise patterning within the three-dimensional context of tissues, organs and embryos implies that cells can sense their relative position. During preimplantation development, outside and inside cells rely on apicobasal polarity and the Hippo pathway to choose their fate. Despite recent findings suggesting that mechanosensing might be central to this process, the relationship between blastomere geometry (i.e. shape and position) and the Hippo pathway effector YAP remains unknown. We used a highly quantitative approach to analyse information on the geometry and YAP localisation of individual blastomeres of mouse and human embryos. We identified the proportion of exposed cell surface area as most closely correlating with the nuclear localisation of YAP. To test this relationship, we developed several hydrogel-based approaches to alter blastomere geometry in cultured embryos. Unbiased clustering analyses of blastomeres from such embryos revealed that this relationship emerged during compaction. Our results therefore pinpoint the time during early embryogenesis when cells acquire the ability to sense changes in geometry and provide a new framework for how cells might integrate signals from different membrane domains to assess their relative position within the embryo.
Highlights
Through the course of embryonic development, complex tissues and organs are formed from a single cell
Despite recent findings suggesting that mechanosensing may be central to this process, the relationship between blastomere geometry and the Hippo pathway effector YAP remains unknown
We identify proportion of exposed cell surface area as most closely correlating with nuclear localisation of YAP
Summary
Through the course of embryonic development, complex tissues and organs are formed from a single cell. This requires each given cell within the developing embryo to constantly sense its position within its 3D environment in order to make correct fate decisions. Morphogen gradients have long been suggested to play an important role in transmitting positional information across tissues during embryo patterning (Briscoe and Small, 2015; Tickle et al, 1975) though even here, mechanistic details remain unclear (Wolpert, 2016). The molecular mechanisms by which outside and inside cells determine their fate has been extensively studied, highlighting the importance of apicobasal polarity and Hippo signalling (Plusa et al, 2005; Sasaki, 2017; White et al, 2018)
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