Communications Biology (Nov 2023)

The ECM and tissue architecture are major determinants of early invasion mediated by E-cadherin dysfunction

  • Soraia Melo,
  • Pilar Guerrero,
  • Maurício Moreira Soares,
  • José Rafael Bordin,
  • Fátima Carneiro,
  • Patrícia Carneiro,
  • Maria Beatriz Dias,
  • João Carvalho,
  • Joana Figueiredo,
  • Raquel Seruca,
  • Rui D. M. Travasso

DOI
https://doi.org/10.1038/s42003-023-05482-x
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 11

Abstract

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Abstract Germline mutations of E-cadherin cause Hereditary Diffuse Gastric Cancer (HDGC), a highly invasive cancer syndrome characterised by the occurrence of diffuse-type gastric carcinoma and lobular breast cancer. In this disease, E-cadherin-defective cells are detected invading the adjacent stroma since very early stages. Although E-cadherin loss is well established as a triggering event, other determinants of the invasive process persist largely unknown. Herein, we develop an experimental strategy that comprises in vitro extrusion assays using E-cadherin mutants associated to HDGC, as well as mathematical models epitomising epithelial dynamics and its interaction with the extracellular matrix (ECM). In vitro, we verify that E-cadherin dysfunctional cells detach from the epithelial monolayer and extrude basally into the ECM. Through phase-field modelling we demonstrate that, aside from loss of cell-cell adhesion, increased ECM attachment further raises basal extrusion efficiency. Importantly, by combining phase-field and vertex model simulations, we show that the cylindrical structure of gastric glands strongly promotes the cell’s invasive ability. Moreover, we validate our findings using a dissipative particle dynamics simulation of epithelial extrusion. Overall, we provide the first evidence that cancer cell invasion is the outcome of defective cell-cell linkages, abnormal interplay with the ECM, and a favourable 3D tissue structure.