Frontiers in Cell and Developmental Biology (Feb 2023)

3D multicellular systems in disease modelling: From organoids to organ-on-chip

  • Caoimhe Goldrick,
  • Ina Guri,
  • Gabriel Herrera-Oropeza,
  • Charlotte O’Brien-Gore,
  • Errin Roy,
  • Maja Wojtynska,
  • Francesca M. Spagnoli

DOI
https://doi.org/10.3389/fcell.2023.1083175
Journal volume & issue
Vol. 11

Abstract

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Cell-cell interactions underlay organ formation and function during homeostasis. Changes in communication between cells and their surrounding microenvironment are a feature of numerous human diseases, including metabolic disease and neurological disorders. In the past decade, cross-disciplinary research has been conducted to engineer novel synthetic multicellular organ systems in 3D, including organoids, assembloids, and organ-on-chip models. These model systems, composed of distinct cell types, satisfy the need for a better understanding of complex biological interactions and mechanisms underpinning diseases. In this review, we discuss the emerging field of building 3D multicellular systems and their application for modelling the cellular interactions at play in diseases. We report recent experimental and computational approaches for capturing cell-cell interactions as well as progress in bioengineering approaches for recapitulating these complexities ex vivo. Finally, we explore the value of developing such multicellular systems for modelling metabolic, intestinal, and neurological disorders as major examples of multisystemic diseases, we discuss the advantages and disadvantages of the different approaches and provide some recommendations for further advancing the field.

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