| Literature DB >> 34283567 |
Sayaka Deguchi1,2, Masahiro Tsuda3, Kaori Kosugi1,4, Ayaka Sakamoto1, Natsumi Mimura1, Ryosuke Negoro5, Emi Sano1, Takuro Nobe1,4, Kazuya Maeda6, Hiroyuki Kusuhara6, Hiroyuki Mizuguchi2, Fumiyoshi Yamashita3,7, Yu-Suke Torisawa4, Kazuo Takayama1.
Abstract
A liver-on-a-chip (liver-chip) is a microfluidic device carrying liver cells such as human hepatocytes. It is used to reproduce a part of liver function. Many microfluidic devices are composed of polydimethylsiloxane (PDMS), which is a type of silicone elastomer. PDMS is easy to process and suitable for cell observation, but its high hydrophobicity carries the risk of drug absorption. In this study, we evaluated drug absorption to the PDMS device and investigated the drug responsiveness of human hepatocytes cultured in the PDMS device (hepatocyte-chips). First, the absorption rates of 12 compounds to the PDMS device were measured. The absorption rates of midazolam, bufuralol, cyclosporine A, and verapamil were 92.9, 71.7, 71.4, and 99.6%, respectively, but the other compounds were poorly absorbed. Importantly, the absorption rate of the compounds was correlated with their octanol/water distribution coefficient (log D) values (R2 = 0.76). Next, hepatocyte-chips were used to examine the response to drugs, which are typically used to evaluate hepatic functions. Using the hepatocyte-chips, we could confirm the responsiveness of drugs including cytochrome P450 (CYP) inducers and farnesoid X receptor (FXR) ligands. We believe that our findings will contribute to drug discovery research using PDMS-based liver-chips.Entities:
Keywords: S + log D; drug absorption; human hepatocyte; liver-on-a-chip; organ-on-a-chip; polydimethylsiloxane device
Year: 2021 PMID: 34283567 DOI: 10.1021/acsbiomaterials.1c00642
Source DB: PubMed Journal: ACS Biomater Sci Eng ISSN: 2373-9878