Cell Reports (Oct 2018)

Polyploid Superficial Cells that Maintain the Urothelial Barrier Are Produced via Incomplete Cytokinesis and Endoreplication

  • Jia Wang,
  • Ekatherina Batourina,
  • Kerry Schneider,
  • Spenser Souza,
  • Theresa Swayne,
  • Chang Liu,
  • Christopher D. George,
  • Tiffany Tate,
  • Hanbin Dan,
  • Gregory Wiessner,
  • Yelena Zhuravlev,
  • Julie C. Canman,
  • Indira U. Mysorekar,
  • Cathy Lee Mendelsohn

Journal volume & issue
Vol. 25, no. 2
pp. 464 – 477.e4

Abstract

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Summary: The urothelium is an epithelia barrier lined by a luminal layer of binucleated, octoploid, superficial cells. Superficial cells are critical for production and transport of uroplakins, a family of proteins that assemble into a waterproof crystalline plaque that helps protect against infection and toxic substances. Adult urothelium is nearly quiescent, but rapidly regenerates in response to injury. Yet the mechanism by which binucleated, polyploid, superficial cells are produced remains unclear. Here, we show that superficial cells are likely to be derived from a population of binucleated intermediate cells, which are produced from mononucleated intermediate cells via incomplete cytokinesis. We show that binucleated intermediate and superficial cells increase DNA content via endoreplication, passing through S phase without entering mitosis. The urothelium can be permanently damaged by repetitive or chronic injury or disease. Identification of the mechanism by which superficial cells are produced may be important for developing strategies for urothelial repair. : Binucleated superficial cells are critical for urothelial barrier function. Wang et al. show that they derive from binucleated intermediate cells that form via incomplete cytokinesis. Both superficial and intermediate cells increase ploidy via endoreplication, a feature likely to be important for repair and response to environmental changes. Keywords: endoreplication, urothelium, polyploidy, epithelial barrier, regeneration