Competition for Space Is Controlled by Apoptosis-Induced Change of Local Epithelial Topology

Alice Tsuboi, Shizue Ohsawa, Daiki Umetsu, Yukari Sando, Erina Kuranaga, Tatsushi Igaki, Koichi Fujimoto

Research output: Contribution to journalArticlepeer-review

18 Citations (Scopus)

Abstract

During the initial stage of tumor progression, oncogenic cells spread despite spatial confinement imposed by surrounding normal tissue. This spread of oncogenic cells (winners) is thought to be governed by selective killing of surrounding normal cells (losers) through a phenomenon called “cell competition” (i.e., supercompetition). Although the mechanisms underlying loser elimination are increasingly apparent, it is not clear how winner cells selectively occupy the space made available following loser apoptosis. Here, we combined live imaging analyses of two different oncogenic clones (Yki/YAP activation and Ras activation) in the Drosophila epithelium with computer simulation of tissue mechanics to elucidate such a mechanism. Contrary to the previous expectation that cell volume loss after apoptosis of loser cells was simply compensated for by the faster proliferation of winner cells, we found that the lost volume was compensated for by rapid cell expansion of winners. Mechanistically, the rapid winner-dominated cell expansion was driven by apoptosis-induced epithelial junction remodeling, which causes re-connection of local cellular connectivity (cell topology) in a manner that selectively increases winner apical surface area. In silico experiments further confirmed that repetition of loser elimination accelerates tissue-scale winner expansion through topological changes over time. Our proposed mechanism for linking loser death and winner expansion provides a new perspective on how tissue homeostasis disruption can initiate from an oncogenic mutation.

Original languageEnglish
Pages (from-to)2115-2128.e5
JournalCurrent Biology
Volume28
Issue number13
DOIs
Publication statusPublished - 2018 Jul 9

Keywords

  • Hippo
  • Ras
  • cell competition
  • cell intercalation
  • cell packing
  • differential growth
  • epithelial tissue
  • tissue mechanics
  • tumor progression
  • vertex model

ASJC Scopus subject areas

  • Biochemistry, Genetics and Molecular Biology(all)
  • Agricultural and Biological Sciences(all)

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