There remains a significant need for a convenient, phenotypically stable long-term culture platform for primary human hepatocytes (PHHs) for use in pharmacological and toxicological applications. Conventional in vitro models are often inconvenient, burdensome to use, and unable to support a multitude of donor lots or maintain PHH structural and functional properties over extended time. To address these limitations, an all-human cell-based hepatic tri-culture system (HTCS) has been developed comprised of frozen vials of PHHs and feeder cells. Qualified PHHs exhibited healthy morphological characteristics for ≥30 days. Extensive anastomosing networks of bile canaliculi with tight and gap junctions were established early and remained stable and functional throughout the culture period. After 5 culture days, albumin, urea, and basal Phase 1 and Phase 2 metabolic functions were stable for at least 2 weeks and significantly higher in the HTCS PHHs compared to sandwich monoculture PHHs. Induction of CYP functional activity by prototypical receptor agonists was stable after 4 days for at least 2 weeks. Gene expression of Alb and various CYPs in the HTCS PHHs was significantly higher compared to sandwich monoculture PHHs. The HTCS represents a convenient, phenotypically stable, all-human PHH culture platform for pharmacological and toxicological applications.
Keywords: Albumin; Hepatocytes; Human; Induction; Metabolism; Tri-culture.
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