Generation of expandable human pluripotent stem cell-derived hepatocyte-like liver organoids

类有机物 诱导多能干细胞 胚胎干细胞 细胞生物学 生物 干细胞 人诱导多能干细胞 肝细胞 遗传学 体外 基因
作者
Seon Ju Mun,Jae‐Sung Ryu,Mi‐Ok Lee,Ye Seul Son,Soo Jin Oh,Hyun‐Soo Cho,Mi‐Young Son,Dae‐Soo Kim,Su Jung Kim,Hyun Ju Yoo,Ho‐Joon Lee,Janghwan Kim,Cho‐Rok Jung,Kyung‐Sook Chung,Myung Jin Son,Myung Jin Son,Myung Jin Son
出处
期刊:Journal of Hepatology [Elsevier BV]
卷期号:71 (5): 970-985 被引量:372
标识
DOI:10.1016/j.jhep.2019.06.030
摘要

Highlights•Pluripotent stem cell (PSC)-derived expandable human hepatocyte-like liver organoids were generated.•PSC-derived human hepatic organoids are capable of long-term expansion with competent liver functionality.•PSC-derived human hepatic organoids provide a robust hepatic model for toxicity prediction and drug screening.Graphical abstractAbstractBackground & AimsThe development of hepatic models capable of long-term expansion with competent liver functionality is technically challenging in a personalized setting. Stem cell-based organoid technologies can provide an alternative source of patient-derived primary hepatocytes. However, self-renewing and functionally competent human pluripotent stem cell (PSC)-derived hepatic organoids have not been developed.MethodsWe developed a novel method to efficiently and reproducibly generate functionally mature human hepatic organoids derived from PSCs, including human embryonic stem cells and induced PSCs. The maturity of the organoids was validated by a detailed transcriptome analysis and functional performance assays. The organoids were applied to screening platforms for the prediction of toxicity and the evaluation of drugs that target hepatic steatosis through real-time monitoring of cellular bioenergetics and high-content analyses.ResultsOur organoids were morphologically indistinguishable from adult liver tissue-derived epithelial organoids and exhibited self-renewal. With further maturation, their molecular features approximated those of liver tissue, although these features were lacking in 2D differentiated hepatocytes. Our organoids preserved mature liver properties, including serum protein production, drug metabolism and detoxifying functions, active mitochondrial bioenergetics, and regenerative and inflammatory responses. The organoids exhibited significant toxic responses to clinically relevant concentrations of drugs that had been withdrawn from the market due to hepatotoxicity and recapitulated human disease phenotypes such as hepatic steatosis.ConclusionsOur organoids exhibit self-renewal (expandable and further able to differentiate) while maintaining their mature hepatic characteristics over long-term culture. These organoids may provide a versatile and valuable platform for physiologically and pathologically relevant hepatic models in the context of personalized medicine.Lay summaryA functionally mature, human cell-based liver model exhibiting human responses in toxicity prediction and drug evaluation is urgently needed for pre-clinical drug development. Here, we develop a novel human pluripotent stem cell-derived hepatocyte-like liver organoid that is critically advanced in terms of its generation method, functional performance, and application technologies. Our organoids can contribute to the better understanding of liver development and regeneration, and provide insights for metabolic studies and disease modeling, as well as toxicity assessments and drug screening for personalized medicine.
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