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Evidence of Adult Features and Functions of Hepatocytes Differentiated from Human Induced Pluripotent Stem Cells and Self-Organized as Organoids

Antonietta Messina, Eléanor Luce, Nassima Benzoubir, Mattia Pasqua, Ulysse Pereira, Lydie Humbert, Thibaut Eguether, Dominique Rainteau, Jean‐Charles Duclos‐Vallée, Cécile Legallais, Anne Dubart‐Kupperschmitt

2022Cells22 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Human-induced pluripotent stem cell-derived hepatocytes (iHeps) have been shown to have considerable potential in liver diseases, toxicity, and pharmacological studies. However, there is a growing need to obtain iHeps that are truly similar to primary adult hepatocytes in terms of morphological features and functions. We generated such human iHeps, self-assembled as organoids (iHep-Orgs). METHODS: iPSC-derived hepatoblasts were self-assembled into spheroids and differentiated into mature hepatocytes modulating final step of differentiation. RESULTS: In about four weeks of culture, the albumin secretion levels and the complete disappearance of α-fetoprotein from iHep-Orgs suggested the acquisition of a greater degree of maturation than those previously reported. The expression of apical transporters and bile acid secretion evidenced the acquisition of complex hepatocyte polarity as well as the development of a functional and well-defined bile canalicular network confirmed by computational analysis. Activities recorded for CYP450, UGT1A1, and alcohol dehydrogenase, response to hormonal stimulation, and glucose metabolism were also remarkable. Finally, iHep-Orgs displayed a considerable ability to detoxify pathological concentrations of lactate and ammonia. CONCLUSIONS: With features similar to those of primary adult hepatocytes, the iHep-Orgs thus produced could be considered as a valuable tool for the development and optimization of preclinical and clinical applications.

Topics & Concepts

Induced pluripotent stem cellOrganoidHepatocyteCell biologyBiologySecretionStem cellCellBiochemistryEmbryonic stem cellGeneIn vitroLiver physiology and pathologyPluripotent Stem Cells Research3D Printing in Biomedical Research