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Structure formation induced by non-reciprocal cell-cell interactions in a multicellular system.

Biplab BhattacherjeeMasayuki HayakawaTatsuo Shibata
Published in: Soft matter (2024)
Collective cellular behavior plays a crucial role in various biological processes, ranging from developmental morphogenesis to pathological processes such as cancer metastasis. Our previous research has revealed that a mutant cell of Dictyostelium discoideum exhibits collective cell migration, including chain migration and traveling band formation, driven by a unique tail-following behavior at contact sites, which we term "contact following locomotion" (CFL). Here, we uncover an imbalance of forces between the front and rear cells within cell chains, leading to an additional propulsion force in the rear cells. Drawing inspiration from this observation, we introduce a theoretical model that incorporates non-reciprocal cell-cell interactions. Our findings highlight that the non-reciprocal interaction, in conjunction with self-alignment interactions, significantly contributes to the emergence of the observed collective cell migrations. Furthermore, we present a comprehensive phase diagram, showing distinct phases at both low and intermediate cell densities. This phase diagram elucidates a specific regime that corresponds to the experimental system.
Keyphrases
  • single cell
  • cell therapy
  • stem cells
  • cell migration
  • oxidative stress
  • young adults
  • bone marrow
  • preterm birth
  • lymph node metastasis