IVEN: A quantitative tool to describe 3D cell position and neighbourhood reveals architectural changes in FGF4-treated preimplantation embryos.

Jessica E Forsyth,Rowena Seaton Kelly,Berenika Plusa,Diego Perez-Cortes,Roberto De La Fuente,Isabel Rivera,Nikkinder Modare,Simon Cotter,Ali H Al-Anbaki,Joshua Mark Brickman

doi:10.1371/journal.pbio.3001345

Jessica E Forsyth, Rowena Seaton Kelly + Show 8 more

Open Access

https://doi.org/10.1371/journal.pbio.3001345

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Abstract

Architectural changes at the cellular and organism level are integral and necessary to successful development and growth. During mammalian preimplantation development, cells reduce in size and the architecture of the embryo changes significantly. Such changes must be coordinated correctly to ensure continued development of the embryo and, ultimately, a successful pregnancy. However, the nature of such transformations is poorly defined during mammalian preimplantation development. In order to quantitatively describe changes in cell environment and organism architecture, we designed Internal Versus External Neighbourhood (IVEN). IVEN is a user-interactive, open-source pipeline that classifies cells into different populations based on their position and quantifies the number of neighbours of every cell within a dataset in a 3D environment. Through IVEN-driven analyses, we show how transformations in cell environment, defined here as changes in cell neighbourhood, are related to changes in embryo geometry and major developmental events during preimplantation mammalian development. Moreover, we demonstrate that modulation of the FGF pathway alters spatial relations of inner cells and neighbourhood distributions, leading to overall changes in embryo architecture. In conjunction with IVEN-driven analyses, we uncover differences in the dynamic of cell size changes over the preimplantation period and determine that cells within the mammalian embryo initiate growth phase only at the time of implantation.

Highlights

Dynamic relations between cells in the changing architecture of developing organisms are an important part of the developmental process, albeit rarely investigated in detail
One of the major roadblocks is a lack of appropriate tools that allow for large-scale, quantitative assessments of the changes in the cell microenvironment and the ability to link them to overall transformations in embryo geometry
In the early mammalian embryo, subsequent rounds of cell divisions lead to constant remodelling of cell microenvironment

Summary

METHODS AND RESOURCES

IVEN: A quantitative tool to describe 3D cell position and neighbourhood reveals architectural changes in FGF4-treated preimplantation embryos. Al-Anbaki, Roberto de la FuenteID1,3, Nikkinder ModareID1, Diego Perez-Cortes, Isabel RiveraID1, Rowena Seaton KellyID1, Simon CotterID2, Berenika PlusaID1*. Peer Review History: PLOS recognizes the benefits of transparency in the peer review process; we enable the publication of all of the content of peer review and author responses alongside final, published articles. Data Availability Statement: Data used to generate figures and analyses are available from the GitHub repository https://github.com/

Introduction

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