HepaRG human hepatic cell line utility as a surrogate for primary human hepatocytes in drug metabolism assessment in vitro

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• 作者：Marc Lü ; bberstedt^a ; ^{marc.luebberstedt@charite.de} ; Ursula Mü ; ller-Vieira^b ; ^{mueller@pharmacelsus.de} ; Manuela Mayer^b ; ^{mayer@pharmacelsus.de} ; Klaus M. Biemel^b ; ^{biemel@pharmacelsus.de} ; Fanny Kn&#xf6 ; spel^a ; ^{fanny.knoespel@charite.de} ; Daniel Knobeloch^c ; ^{daniel.knobeloch@charite.de} ; Andreas K. Nü ; ssler^d ; ^{nuessler@uchir.me.tum.de} ; J&#xf6 ; rg C. Gerlach^a ; ^e ; ^{joerg.gerlach@cellnet.org} ; Katrin Zeilinger^a ; ^{katrin.zeilinger@charite.de}
• 关键词：Hepatocyte characterization methods ; Cytochrome P450 ; HepaRG ; Intrinsic clearance ; P450 enzyme induction ; Primary human hepatocytes
• 刊名：Journal of Pharmacological and Toxicological Methods
• 出版年：2011
• 出版时间：January-February 2011
• 年：2011
• 卷：63
• 期：1
• 页码：59-68
• 全文大小：1011 K

文摘

Introduction

Primary human hepatocytes are considered as a highly predictive in vitro model for preclinical drug metabolism studies. Due to the limited availability of human liver tissue for cell isolation, there is a need of alternative cell sources for pharmaceutical research.

Methods

In this study, the metabolic activity and long-term stability of the human hepatoma cell line HepaRG were investigated in comparison to primary human hepatocytes (pHH). Hepatocyte-specific parameters (albumin and urea synthesis, galactose and sorbitol elimination) and the activity of human-relevant cytochrome P450 (CYP) enzymes (CYP1A2, CYP2C9, CYP2C19, CYP2D6 and CYP3A4) were assayed in both groups over a period of 14 days subsequently to a two week culture period in differentiated state in case of the HepaRG cells, and compared with those of cryopreserved hepatocytes in suspension. In addition, the inducibility of CYP enzymes and the intrinsic clearances of eleven reference drugs were determined.

Results

The results show overall stable metabolic activity of HepaRG cells over the monitored time period. Higher albumin production and galactose/sorbitol elimination rates were observed compared with pHH, while urea production was not detected. CYP enzyme-dependent drug metabolic capacities were shown to be stable over the cultivation time in HepaRG cells and were comparable or even higher (CYP2C9, CYP2D6, CYP3A4) than in pHH, whereas commercially available hepatocytes showed a different pattern The intrinsic clearance rates of reference drugs and enzyme induction of most CYP enzymes were similar in HepaRG cells and pHH. CYP1A2 activity was highly inducible in HepaRG by β-naphthoflavone.

Discussion

In conclusion, the results from this study indicate that HepaRG cells could provide a suitable alternative to pHH in pharmaceutical research and development for metabolism studies such as CYP induction or sub-chronic to chronic hepatotoxicity studies.