Literature DB >> 29851366

In Vitro Pluripotent Stem Cell Differentiation to Hepatocyte Ceases Further Maturation at an Equivalent Stage of E15 in Mouse Embryonic Liver Development.

Ravali Raju1,2, David Chau1,2,3, Tineke Notelaers4,5, Chad L Myers6, Catherine M Verfaillie4,5, Wei-Shou Hu1,2.   

Abstract

Hepatocyte-like cells (HLCs) can be derived from pluripotent stem cells (PSCs) by sequential treatment of chemical cues to mimic the microenvironment of embryonic liver development. However, these HLCs do not reach the full maturity level of primary hepatocytes. In this study, we carried out a meta-analysis of cross-species transcriptome data of in vitro differentiation of human PSCs to HLCs and in vivo mouse embryonic liver development to identify the developmental stage at which HLC maturation was blocked at. Systematic variations were found associated with the data source and removed by batch correction. Using principal component analysis, HLCs from different stages of differentiation were aligned with mouse embryonic liver development chronologically. A "unified developmental time" (DT) scale was developed after aligning in vitro HLC differentiation and in vivo embryonic liver development. HLCs were found to cease further maturation at an equivalent stage of mouse embryonic day (E)13-15. Genes with discordant time dynamics were identified by aligning in vivo and in vitro data set onto a common DT scale. These genes may be targets of genetic intervention for enhancing the maturity of PSC-derived HLCs.

Entities:  

Keywords:  gene expression; hepatic differentiation; meta-analysis; stem cells

Mesh:

Year:  2018        PMID: 29851366      PMCID: PMC6916117          DOI: 10.1089/scd.2017.0270

Source DB:  PubMed          Journal:  Stem Cells Dev        ISSN: 1547-3287            Impact factor:   3.272


  62 in total

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6.  Hepatocyte-like cells derived from human induced pluripotent stem cells using small molecules: implications of a transcriptomic study.

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Review 7.  iPSC-Derived Liver Organoids: A Journey from Drug Screening, to Disease Modeling, Arriving to Regenerative Medicine.

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  7 in total

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