Robust, Long-Term Culture of Endoderm-Derived Hepatic Organoids for Disease Modeling
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Publication date
2019-10-08
Authors
Akbari, Soheil
Sevinç, Gülben Gürhan
Ersoy, Nevin
Basak, Onur
Kaplan, Kubra
Sevinç, Kenan
Ozel, Erkin
Sengun, Berke
Enustun, Eray
Ozcimen, Burcu
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Abstract
Organoid technologies have become a powerful emerging tool to model liver diseases, for drug screening, and for personalized treatments. These applications are, however, limited in their capacity to generate functional hepatocytes in a reproducible and efficient manner. Here, we generated and characterized the hepatic organoid (eHEPO) culture system using human induced pluripotent stem cell (iPSC)-derived EpCAM-positive endodermal cells as an intermediate. eHEPOs can be produced within 2 weeks and expanded long term (>16 months) without any loss of differentiation capacity to mature hepatocytes. Starting from patient-specific iPSCs, we modeled citrullinemia type 1, a urea cycle disorder caused by mutations in the argininosuccinate synthetase (ASS1) enzyme. The disease-related ammonia accumulation phenotype in eHEPOs could be reversed by the overexpression of the wild-type ASS1 gene, which also indicated that this model is amenable to genetic manipulation. Thus, eHEPOs are excellent unlimited cell sources to generate functional hepatic organoids in a fast and efficient manner.
Keywords
3D organoid, citrullinemia, disease modelling, EpCAM, hepatocyte, hepatocyte differentiation, iPSC, liver, Biochemistry, Genetics, Developmental Biology, Cell Biology
Citation
Akbari, S, Sevinç, G G, Ersoy, N, Basak, O, Kaplan, K, Sevinç, K, Ozel, E, Sengun, B, Enustun, E, Ozcimen, B, Bagriyanik, A, Arslan, N, Önder, T T & Erdal, E 2019, 'Robust, Long-Term Culture of Endoderm-Derived Hepatic Organoids for Disease Modeling', Stem Cell Reports, vol. 13, no. 4, pp. 627-641. https://doi.org/10.1016/j.stemcr.2019.08.007