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J Cell Physiol. 2019 Apr;234(4):3744-3761. doi: 10.1002/jcp.27131. Epub 2018 Aug 26.

hiPSC-derived hepatocytes closely mimic the lipid profile of primary hepatocytes: A future personalised cell model for studying the lipid metabolism of the liver.

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Faculty of Medicine and Life Sciences, University of Tampere, Tampere, Finland.
Zora Biosciences, Espoo, Finland.
Lipidomics Consulting Ltd, Espoo, Finland.
Faculty of Biology and Environmental Sciences, University of Helsinki, Helsinki, Finland.
Heart Hospital, Tampere University Hospital, Tampere, Finland.


Hepatocyte-like cells (HLCs) differentiated from human-induced pluripotent stem cells offer an alternative platform to primary human hepatocytes (PHHs) for studying the lipid metabolism of the liver. However, despite their great potential, the lipid profile of HLCs has not yet been characterized. Here, we comprehensively studied the lipid profile and fatty acid (FA) metabolism of HLCs and compared them with the current standard hepatocyte models: HepG2 cells and PHHs. We differentiated HLCs by five commonly used methods from three cell lines and thoroughly characterized them by gene and protein expression. HLCs generated by each method were assessed for their functionality and the ability to synthesize, elongate, and desaturate FAs. In addition, lipid and FA profiles of HLCs were investigated by both mass spectrometry and gas chromatography and then compared with the profiles of PHHs and HepG2 cells. HLCs resembled PHHs by expressing hepatic markers: secreting albumin, lipoprotein particles, and urea, and demonstrating similarities in their lipid and FA profile. Unlike HepG2 cells, HLCs contained low levels of lysophospholipids similar to the content of PHHs. Furthermore, HLCs were able to efficiently use the exogenous FAs available in their medium and simultaneously modify simple lipids into more complex ones to fulfill their needs. In addition, we propose that increasing the polyunsaturated FA supply of the culture medium may positively affect the lipid profile and functionality of HLCs. In conclusion, our data showed that HLCs provide a functional and relevant model to investigate human lipid homeostasis at both molecular and cellular levels.


HepG2; fatty acid (FA); gas chromatography; hepatocyte-like cell (HLC); human-induced pluripotent stem cell (hiPSC); lipidomics; mass spectrometry (MS); primary human hepatocyte (PHH)


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