A hollow fiber membrane-based liver organoid-on-a-chip model for examining drug metabolism and transport

Publication date

2025-04-01

Authors

Myszczyszyn, Adam
Münch, Anna
Lehmann, VivianISNI 0000000506790135
Sinnige, Theo L.ISNI 0000000396658810
van Steenbeek, Frank G.ISNI 0000000395406590
Bouwmeester, ManonISNI 0000000492825252
Samsom, Roos-AnneISNI 0000000512605717
Keuper-Navis, MaritISNI 0000000524274310
van der Made, Thom KISNI 0000000507746152
Kogan, Daniel

Editors

Advisors

Supervisors

Document Type

Article
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cc_by

Abstract

Liver-on-a-chip models predictive for both metabolism, and blood and canalicular transport of drug candidates in humans are lacking. Here, we established a bioengineered and 3Rs-complied (animal component-free) hepatocyte-like millifluidic system based on 3D hollow fiber membranes (HFMs), recombinant human laminin 332 coating and adult human stem cell-derived organoids. Organoid fragments formed polarized and tight monolayers on HFMs with improved hepatocyte-like maturation, as compared to standard 3D organoid cultures in Matrigel from matched donors. Gene expression profiling and immunofluorescence revealed that hepatocyte-like monolayers expressed a broad panel of phase I (e.g. CYP3A4, CYP2D6, CYP2C9) and II (e.g. UGTs, SULTs) drug-metabolizing enzymes and drug transporters (e.g. MDR1, MRP3, OATP1B3). Moreover, statically cultured monolayers displayed phase I and II metabolism of a cocktail of six relevant compounds, including midazolam and 7-hydroxycoumarin. We also demonstrated the disposition of midazolam in the basal/blood-like circulation and apical/canalicular-like compartment of the millifluidic chip. Finally, we studied the bioavailability of midazolam and coumarin on-a-chip in combination with a small intestine-like system. In conclusion, we generated a proof-of-concept liver organoid-on-a-chip model for examining metabolism and transport of drugs, which can be further developed to predict pharmacokinetics’ (PK)/absorption, distribution, metabolism and excretion (ADME) profiles in humans.

Keywords

bioengineering, drug metabolism and transport, liver, organoids, organs-on-a-chip, pharmacokinetics, stem cells, Biotechnology, Bioengineering, Biochemistry, Biomaterials, Biomedical Engineering

Citation

Myszczyszyn, A, Münch, A, Lehmann, V, Sinnige, T, van Steenbeek, F G, Bouwmeester, M, Samsom, R-A, Keuper-Navis, M, van der Made, T K, Kogan, D, Braem, S, Laan, L V D, Eslami Amirabadi, H, van de Steeg, E, Masereeuw, R & Spee, B 2025, 'A hollow fiber membrane-based liver organoid-on-a-chip model for examining drug metabolism and transport', Biofabrication, vol. 17, no. 2, 025035. https://doi.org/10.1088/1758-5090/adc3ce