Communications Biology (Apr 2024)

Co-clustering of EphB6 and ephrinB1 in trans restrains cancer cell invasion

  • Lung-Yu Liang,
  • Niall D. Geoghegan,
  • Michael Mlodzianoski,
  • Andrew Leis,
  • Lachlan W. Whitehead,
  • Minglyanna G. Surudoi,
  • Samuel N. Young,
  • Peter Janes,
  • Doulin Shepherd,
  • Debnath Ghosal,
  • Kelly L. Rogers,
  • James M. Murphy,
  • Isabelle S. Lucet

DOI
https://doi.org/10.1038/s42003-024-06118-4
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 13

Abstract

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Abstract EphB6 is an understudied ephrin receptor tyrosine pseudokinase that is downregulated in multiple types of metastatic cancers. Unlike its kinase-active counterparts which autophosphorylate and transmit signals upon intercellular interaction, little is known about how EphB6 functions in the absence of intrinsic kinase activity. Here, we unveil a molecular mechanism of cell-cell interaction driven by EphB6. We identify ephrinB1 as a cognate ligand of EphB6 and show that in trans interaction of EphB6 with ephrinB1 on neighboring cells leads to the formation of large co-clusters at the plasma membrane. These co-clusters exhibit a decreased propensity towards endocytosis, suggesting a unique characteristic for this type of cell-cell interaction. Using lattice light-sheet microscopy, 3D structured illumination microscopy and cryo-electron tomography techniques, we show that co-clustering of EphB6 and ephrinB1 promotes the formation of double-membrane tubular structures between cells. Importantly, we also demonstrate that these intercellular structures stabilize cell–cell adhesion, leading to a reduction in the invasive behavior of cancer cells. Our findings rationalize a role for EphB6 pseudokinase as a tumor suppressor when interacting with its ligands in trans.