Liver-Chip: Reproducing Human and Cross-Species Toxicities

  1. Kyung-Jin Jang
  2. Monicah A. Otieno
  3. Janey Ronxhi
  4. Heng-Keang Lim
  5. Lorna Ewart
  6. Konstantia Kodella
  7. Debora Petropolis
  8. Gauri Kulkarni
  9. Jonathan E. Rubins
  10. David Conegliano
  11. Janna Nawroth
  12. Damir Simic
  13. Wing Lam
  14. Monica Singer
  15. Erio Barale
  16. Bhanu Singh
  17. Manisha Sonee
  18. Anthony J. Streeter
  19. Carl Manthey
  20. Barry Jones
  21. Abhishek Srivastava
  22. Linda C. Andersson
  23. Dominic Williams
  24. Hyoungshin Park
  25. Riccardo Barrile
  26. Josiah Sliz
  27. Anna Herland
  28. Suzzette Haney
  29. Katia Karalis
  30. Donald E. Ingber
  31. Geraldine A. Hamilton
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Abstract

Nonclinical rodent and non-rodent toxicity models used to support clinical trials of candidate drugs may produce discordant results or fail to predict complications in humans contributing to drug failures in the clinic. Here we applied microengineered Organ-on-Chip (Organ-Chip) technology to design rat, dog, and human Liver-Chips containing species-specific primary hepatocytes interfaced with liver sinusoidal endothelial cells, with or without Kupffer cells and hepatic stellate cells, cultured under physiological fluid flow. The Liver-Chips detected diverse phenotypes of liver toxicity including hepatocellular injury, steatosis, cholestasis, and fibrosis as well as species-specific toxicities when treated with tool compounds. Multi-species Liver-Chips may provide a useful platform for prediction of liver toxicity and inform human relevance of liver toxicities detected in animal studies to better determine safety and human risk.

One Sentence Summary

Microengineered Organ-Chip technology has been used to design rat, dog and human Liver-Chips that recapitulate species-specific liver toxicities.

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