eLife (Feb 2023)

MorphoFeatures for unsupervised exploration of cell types, tissues, and organs in volume electron microscopy

  • Valentyna Zinchenko,
  • Johannes Hugger,
  • Virginie Uhlmann,
  • Detlev Arendt,
  • Anna Kreshuk

DOI
https://doi.org/10.7554/eLife.80918
Journal volume & issue
Vol. 12

Abstract

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Electron microscopy (EM) provides a uniquely detailed view of cellular morphology, including organelles and fine subcellular ultrastructure. While the acquisition and (semi-)automatic segmentation of multicellular EM volumes are now becoming routine, large-scale analysis remains severely limited by the lack of generally applicable pipelines for automatic extraction of comprehensive morphological descriptors. Here, we present a novel unsupervised method for learning cellular morphology features directly from 3D EM data: a neural network delivers a representation of cells by shape and ultrastructure. Applied to the full volume of an entire three-segmented worm of the annelid Platynereis dumerilii, it yields a visually consistent grouping of cells supported by specific gene expression profiles. Integration of features across spatial neighbours can retrieve tissues and organs, revealing, for example, a detailed organisation of the animal foregut. We envision that the unbiased nature of the proposed morphological descriptors will enable rapid exploration of very different biological questions in large EM volumes, greatly increasing the impact of these invaluable, but costly resources.

Keywords