4.5 Article

Robust protein-based engineering of hepatocyte-like cells from human mesenchymal stem cells

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HEPATOLOGY COMMUNICATIONS
卷 7, 期 3, 页码 -

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LIPPINCOTT WILLIAMS & WILKINS
DOI: 10.1097/HC9.0000000000000051

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A protein-based artificial transcription system was developed to engineer hepatocyte-like cells from human umbilical cord-derived mesenchymal stem cells. The engineered cells exhibited functional and molecular characteristics similar to hepatocytes, and significantly improved the survival rate in mice with hepatic failure. This transcription system could serve as a versatile tool for cell therapy for hepatic failures.
Background: Cells of interest can be prepared from somatic cells by forced expression of lineage-specific transcription factors, but it is required to establish a vector-free system for their clinical use. Here, we report a protein-based artificial transcription system for engineering hepatocyte-like cells from human umbilical cord-derived mesenchymal stem cells (MSCs). Methods: MSCs were treated for 5 days with 4 artificial transcription factors (4F), which targeted hepatocyte nuclear factor (HNF)1 alpha, HNF3 gamma, HNF4 alpha, and GATA-binding protein 4 (GATA4). Then, engineered MSCs (4F-Heps) were subjected to epigenetic analysis, biochemical analysis and flow cytometry analysis with antibodies to marker proteins of mature hepatocytes and hepatic progenitors such as delta-like homolog 1 (DLK1) and trophoblast cell surface antigen 2 (TROP2). Functional properties of the cells were also examined by injecting them to mice with lethal hepatic failure. Results: Epigenetic analysis revealed that a 5-day treatment of 4F upregulated the expression of genes involved in hepatic differentiation, and repressed genes related to pluripotency of MSCs. Flow cytometry analysis detected that 4F-Heps were composed of small numbers of mature hepatocytes (at most 1%), bile duct cells (similar to 19%) and hepatic progenitors (similar to 50%). Interestingly, similar to 20% of 4F-Heps were positive for cytochrome P450 3A4, 80% of which were DLK1-positive. Injection of 4F-Heps significantly increased survival of mice with lethal hepatic failure, and transplanted 4F-Heps expanded to more than 50-fold of human albumin-positive cells in the mouse livers, well consistent with the observation that 4F-Heps contained DLK1-positive and/or TROP2-positive cells. Conclusion: Taken together with observations that 4F-Heps were not tumorigenic in immunocompromised mice for at least 2 years, we propose that this artificial transcription system is a versatile tool for cell therapy for hepatic failures.

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