Development of a Caco-2 Cell Line Carrying the Human Intestine-Type CES Expression Profile as a Promising Tool for Ester-Containing Drug Permeability Studies

Carboxylesterase 2 (CES2), which is a member of the serine hydrolase superfamily, is primarily expressed in the human small intestine, where it plays an important role in the metabolism of ester-containing drugs. Therefore, to facilitate continued progress in ester-containing drug development, it is...

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Published inBiological & pharmaceutical bulletin Vol. 41; no. 5; pp. 697 - 706
Main Authors Ishizaki, Yuma, Furihata, Tomomi, Oyama, Yusuke, Ohura, Kayoko, Imai, Teruko, Hosokawa, Masakiyo, Akita, Hidetaka, Chiba, Kan
Format Journal Article
LanguageEnglish
Published Japan The Pharmaceutical Society of Japan 01.05.2018
Pharmaceutical Society of Japan
Japan Science and Technology Agency
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Summary:Carboxylesterase 2 (CES2), which is a member of the serine hydrolase superfamily, is primarily expressed in the human small intestine, where it plays an important role in the metabolism of ester-containing drugs. Therefore, to facilitate continued progress in ester-containing drug development, it is crucial to evaluate how CES2-mediated hydrolysis influences its intestinal permeability characteristics. Human colon carcinoma Caco-2 cells have long been widely used in drug permeability studies as an enterocyte model. However, they are not suitable for ester-containing drug permeability studies due to the fact that Caco-2 cells express CES1 (which is not expressed in human enterocytes) but do not express CES2. To resolve this problem, we created a new Caco-2 cell line carrying the human small intestine-type CES expression profile. We began by introducing short-hairpin RNA for CES1 mRNA knockdown into Caco-2 cells to generate CES1-decifient Caco-2 cells (Caco-2CES1KD cells). Then, we developed Caco-2CES1KD cells that stably express CES2 (CES2/Caco-2CES1KD cells) and their control Mock/Caco-2CES1KD cells. The results of a series of functional expression experiments confirmed that CES2-specific activity, along with CES2 mRNA and protein expression, were clearly detected in our CES2/Caco-2CES1KD cells. Furthermore, we also confirmed that CES2/Caco-2CES1KD cells retained their tight junction formation property as well as their drug efflux transporter functions. Collectively, based on our results clearly showing that CES2/Caco-2CES1KD cells carry the human intestinal-type CES expression profile, while concomitantly retaining their barrier properties, it can be expected that this cell line will provide a promising in vitro model for ester-containing drug permeability studies.
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ISSN:0918-6158
1347-5215
DOI:10.1248/bpb.b17-00880