PLoS ONE (Jan 2022)

"3D, human renal proximal tubule (RPTEC-TERT1) organoids 'tubuloids' for translatable evaluation of nephrotoxins in high-throughput".

  • Sarah E Vidal Yucha,
  • Doug Quackenbush,
  • Tiffany Chu,
  • Frederick Lo,
  • Jeffrey J Sutherland,
  • Guray Kuzu,
  • Christopher Roberts,
  • Fabio Luna,
  • S Whitney Barnes,
  • John Walker,
  • Pia Kuss

DOI
https://doi.org/10.1371/journal.pone.0277937
Journal volume & issue
Vol. 17, no. 11
p. e0277937

Abstract

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The importance of human cell-based in vitro tools to drug development that are robust, accurate, and predictive cannot be understated. There has been significant effort in recent years to develop such platforms, with increased interest in 3D models that can recapitulate key aspects of biology that 2D models might not be able to deliver. We describe the development of a 3D human cell-based in vitro assay for the investigation of nephrotoxicity, using RPTEC-TERT1 cells. These RPTEC-TERT1 proximal tubule organoids 'tubuloids' demonstrate marked differences in physiologically relevant morphology compared to 2D monolayer cells, increased sensitivity to nephrotoxins observable via secreted protein, and with a higher degree of similarity to native human kidney tissue. Finally, tubuloids incubated with nephrotoxins demonstrate altered Na+/K+-ATPase signal intensity, a potential avenue for a high-throughput, translatable nephrotoxicity assay.