Biomedicines (Jul 2023)

Human iPSC-Derived 3D Hepatic Organoids in a Miniaturized Dynamic Culture System

  • Serena Calamaio,
  • Marialaura Serzanti,
  • Jennifer Boniotti,
  • Annamaria Fra,
  • Emirena Garrafa,
  • Manuela Cominelli,
  • Rosanna Verardi,
  • Pietro Luigi Poliani,
  • Silvia Dotti,
  • Riccardo Villa,
  • Giovanna Mazzoleni,
  • Patrizia Dell’Era,
  • Nathalie Steimberg

DOI
https://doi.org/10.3390/biomedicines11082114
Journal volume & issue
Vol. 11, no. 8
p. 2114

Abstract

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The process of identifying and approving a new drug is a time-consuming and expensive procedure. One of the biggest issues to overcome is the risk of hepatotoxicity, which is one of the main reasons for drug withdrawal from the market. While animal models are the gold standard in preclinical drug testing, the translation of results into therapeutic intervention is often ambiguous due to interspecies differences in hepatic metabolism. The discovery of human induced pluripotent stem cells (hiPSCs) and their derivatives has opened new possibilities for drug testing. We used mesenchymal stem cells and hepatocytes both derived from hiPSCs, together with endothelial cells, to miniaturize the process of generating hepatic organoids. These organoids were then cultivated in vitro using both static and dynamic cultures. Additionally, we tested spheroids solely composed by induced hepatocytes. By miniaturizing the system, we demonstrated the possibility of maintaining the organoids, but not the spheroids, in culture for up to 1 week. This timeframe may be sufficient to carry out a hypothetical pharmacological test or screening. In conclusion, we propose that the hiPSC-derived liver organoid model could complement or, in the near future, replace the pharmacological and toxicological tests conducted on animals.

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