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Cell line identity rather than medium composition determines transcriptomic profiles of HepaRG and HuH7 cells cultured in chemically defined or serum-based media: comparison with primary human hepatocytes.

Created on 14 Jul 2026

Authors

Ahmed S M Ali, Heike Sprenger, Albert Braeuning, Jens Kurreck

Published in

Archives of toxicology. Jul 14, 2026. Epub Jul 14, 2026.

Abstract

Standardized and reproducible cell models are key to replace animal testing in toxicology. The composition of culture medium is a major, yet frequently undercontrolled, determinant of cell state in vitro. For decades, fetal bovine serum (FBS) has been routinely incorporated into liver cell culture. Its undefined and lot-to-lot variable composition can, however, confound cell identity and experimental reproducibility. Chemically defined media (CDM) represent an alternative approach that can improve standardization, but the consequences of transitioning from FBS-supplemented media (FBS-SM) to CDM remain insufficiently characterized in hepatic models, particularly with respect to metabolic and detoxification programs that govern xenobiotic metabolism and hepatotoxicity readouts. Here, we systematically assessed how replacing FBS-SM with CDM remodels transcriptomic profiles in two widely used human hepatic cell lines (HepaRG and HuH7 cells) and compared the results to that obtained from primary human hepatocytes (PHH). Global transcriptomic analyses indicated that cell type was the primary driver of variance, whereas medium induced a model-dependent secondary effect. Functional interpretation showed preferential enhancement of xenobiotic metabolism and transport-associated programs in HepaRG cells, while HuH7 cells response was dominated by lipid/sterol homeostasis and stress-linked processes. Benchmarking against PHH based on hepatic identity and detoxification gene panels further supported improved PHH alignment for HepaRG cells under CDM compared to cultures with FBS-SM, with limited improvement for HuH7 cells. Collectively, these findings show that medium effects must be interpreted in the context of cell line identity and indicate that HepaRG cells cultured in CDM provide a more PHH-like transcriptomic background for in vitro studies of xenobiotic metabolism and hepatotoxicity-related readouts than HuH7 cells.

PMID:
42446672
Bibliographic data and abstract were imported from PubMed on 14 Jul 2026.

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